electrification project in a box factory
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TREBALL FI DE GRAU
Grau en Enginyeria de la Energia
ELECTRIFICATION PROJECT IN A BOX FACTORY
Volume II
Electric calculations of the installation
Autor: Nil Domenech Ruiz Director: Rodolfo Oseira Goas ConvocatΓ²ria: Junio 2017
Electrification project in a box factory
i
General index
1. MEMORY 2. ELECTRIC CALCULATIONS OF THE INSTALLATION 3. PLANES 4. BUDGET
Memoria
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Electric calculations index
2. ELECTRIC CALCULATIONS OF THE INSTALLATION ______________________ 15
2.1. Used formulas ........................................................................................................ 15
2.1.1. Three-phase system .............................................................................................. 15
2.1.2. Monophasic system .............................................................................................. 15
2.1.3. Formula electrical conductivity ............................................................................. 16
2.1.4. Overload formulas ................................................................................................ 17
2.1.5. Formula reactive energy compensation ............................................................... 17
2.1.6. Formula short circuit ............................................................................................. 18
2.1.7. Formula Bus bar .................................................................................................... 21
2.1.8. Formula ground resistance ................................................................................... 22
2.2. General panel of control and protection .............................................................. 24
2.2.1. Power demand ...................................................................................................... 24
2.2.2. Bus Bar calculations: Transformation Station ...................................................... 24
2.2.3. Calculation line: CT ................................................................................................ 25
2.2.4. Calculation line: General distribution panel ......................................................... 26
2.2.5. Calculation line: TS GROUP ................................................................................... 27
2.2.6. Calculation line: SWITCHBOARD ........................................................................... 27
2.2.7. Calculation line: LIGHTING TS ............................................................................... 28
2.2.8. Calculation line: METER PLUG .............................................................................. 29
2.2.9. Bus Bar calculations: General Panel ..................................................................... 30
2.3. Sub-panel General Panel ....................................................................................... 31
2.3.1. Power demand ...................................................................................................... 31
2.3.2. Capacitor bank calculation .................................................................................... 32
2.3.3. Calculation line: Capacitor bank ........................................................................... 33
2.3.4. Calculation line: PUMP01 ..................................................................................... 34
2.3.1. Calculation line: PURIFICATION ............................................................................ 34
2.3.2. Calculation line: SP-ELE ......................................................................................... 35
2.3.3. Calculation line: SP-WEATHER .............................................................................. 36
2.3.4. Calculation line: SP-COMP .................................................................................... 37
2.3.5. Calculation line: SP-WASEHOUSE ......................................................................... 38
2.3.6. Calculation line: SP-OFILOG .................................................................................. 39
2.3.7. Calculation line: SP-EMBA244 .............................................................................. 39
2.3.8. Calculation line: SP-EMBA170 .............................................................................. 40
2.3.9. Calculation line: SP-PROD1 ................................................................................... 41
2.3.10. Calculation line: SP-WORKSHOP ........................................................................... 42
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2.3.11. Calculation line: SP-PROD2 ................................................................................... 43
2.3.12. Calculation line: SP-BOBST ................................................................................... 44
2.3.13. Calculation line: SP-TRANSFER ............................................................................. 45
2.3.14. Calculation line: SP-EXIT ....................................................................................... 46
2.3.15. Calculation line: SP-SUCTION ............................................................................... 47
2.3.16. Calculation line: SP-TOILETS ................................................................................. 48
2.3.17. Calculation line: SP-OFFICES ................................................................................. 49
2.3.18. Calculation line: SP-INFORMATICS ....................................................................... 50
2.3.19. Calculation line: SP-FIREPROT .............................................................................. 51
2.3.20. Calculation line: SP-VENTILATION ........................................................................ 52
2.3.21. Calculation line: SP-LIGHTING .............................................................................. 53
2.3.22. Calculation line: SP-DINING .................................................................................. 54
2.3.23. Calculation line: SP-DYE ........................................................................................ 55
2.3.24. Calculation line: SP-PRESS .................................................................................... 56
2.4. Sub-panel SP-WEATHER ......................................................................................... 57
2.4.1. Power demand ..................................................................................................... 57
2.4.2. Calculation line: CP-GEOTHERMAL ...................................................................... 57
2.4.3. Calculation line: GAS BOILER ................................................................................ 58
2.4.4. Calculation line: LT ................................................................................................ 59
2.4.5. Calculation line: LT-01 .......................................................................................... 59
2.4.6. Calculation line: EMERGENCY .............................................................................. 60
2.4.7. Calculation line: PUMPS-02 .................................................................................. 61
2.4.8. Calculation line: OFFICES PUMP ........................................................................... 61
2.4.9. Calculation line: DRESSING ROOM PUMP ............................................................ 62
2.4.10. Calculation line: ACS PUMP .................................................................................. 63
2.4.11. Calculation line: AIRCOND .................................................................................... 64
2.4.12. Calculation line: PUMPS-01 .................................................................................. 65
2.4.13. Calculation line: FACTORY PUMP ......................................................................... 65
2.4.14. Calculation line: WAREHOUSE PUMP .................................................................. 66
2.4.15. Calculation line: CONTROLPUMPS ....................................................................... 67
2.4.16. Bus Bar calculations: SP-WEATHER ...................................................................... 68
2.5. Sub-panel SP-COMP ............................................................................................... 69
2.5.1. Power demand ..................................................................................................... 69
2.5.2. Calculation line: COM01 ....................................................................................... 69
2.5.3. Calculation line: COM03 ....................................................................................... 70
2.5.4. Calculation line: DRY01 ......................................................................................... 71
2.5.5. Calculation line: COMP-2 ...................................................................................... 72
Memoria
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2.5.6. Calculation line: LT01 ............................................................................................ 72
2.5.7. Calculation line: EMERGENCY ............................................................................... 73
2.5.8. Calculation line: COM02 ....................................................................................... 74
2.5.9. Calculation line: SUCTION ..................................................................................... 75
2.5.10. Calculation line: PLUG01 ....................................................................................... 75
2.5.11. Calculation line: SERVICE BOXES ........................................................................... 76
2.5.12. Calculation line: SW V P ........................................................................................ 77
2.5.13. Bus Bar calculations: SP-COMP ............................................................................. 78
2.6. Sub-panel SP-WAREHOUSE ................................................................................... 79
2.6.1. Power demand ...................................................................................................... 79
2.6.2. Calculation line: WAREHOUSE 0 ........................................................................... 79
2.6.3. Calculation line: CBA01 ......................................................................................... 80
2.6.4. Calculation line: CBA02 ......................................................................................... 81
2.6.5. Calculation line: WAREHOUSE 1 ........................................................................... 81
2.6.6. Calculation line: CBA3 ........................................................................................... 82
2.6.7. Calculation line: CBA4 ........................................................................................... 83
2.6.8. Calculation line: WAREHOUSE 2 ........................................................................... 83
2.6.9. Calculation line: DOOR01 ...................................................................................... 84
2.6.10. Calculation line: DOOR02 ...................................................................................... 85
2.6.11. Calculation line: WAREHOUSE 3 ........................................................................... 85
2.6.12. Calculation line: DOOR03 ...................................................................................... 86
2.6.13. Calculation line: DOOR04 ...................................................................................... 87
2.6.14. Calculation line: WAREHOUSE 4 ........................................................................... 87
2.6.15. Calculation line: LP01 ............................................................................................ 88
2.6.16. Calculation line: LP02 ............................................................................................ 89
2.6.17. Calculation line: WAREHOUSE 5 ........................................................................... 90
2.6.18. Calculation line: AER01 ......................................................................................... 90
2.6.19. Calculation line: AER02 ......................................................................................... 91
2.6.20. Calculation line: AER03 ......................................................................................... 92
2.6.21. Calculation line: SB ................................................................................................ 92
2.6.22. Calculation line: BRIDGE ....................................................................................... 93
2.6.23. Calculation line: BACKUP ...................................................................................... 94
2.6.24. Bus Bar calculations: SP-WAREHOUSE ................................................................. 95
2.7. Sub-panel SP-OFILOG............................................................................................. 96
2.7.1. Power demand ...................................................................................................... 96
2.7.2. Calculation line: LT ................................................................................................ 96
2.7.3. Calculation line: LT01 ............................................................................................ 97
Electrification project in a box factory
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2.7.4. Calculation line: EMERGENCY .............................................................................. 97
2.7.5. Calculation line: PLUGS01 .................................................................................... 98
2.7.6. Calculation line: PLUGS 1 ...................................................................................... 99
2.7.7. Calculation line: PLUGS 2 ...................................................................................... 99
2.7.8. Calculation line: PLUGS 3 .................................................................................... 100
2.7.9. Calculation line: PLUGS02 .................................................................................. 101
2.7.10. Calculation line: PLUGS 4 .................................................................................... 101
2.7.11. Calculation line: CLI01 ........................................................................................ 102
2.7.12. Calculation line: CLI02 ........................................................................................ 103
2.7.13. Bus Bar calculations: SP-WEATHER .................................................................... 103
2.8. Sub-panel SP-EMBA244 ....................................................................................... 104
2.8.1. Power demand ................................................................................................... 104
2.8.2. Calculation line: BCR01 ....................................................................................... 105
2.8.3. Calculation line: EMBA244-1 .............................................................................. 105
2.8.4. Calculation line: TIER01 ...................................................................................... 106
2.8.5. Calculation line: CCM01 ..................................................................................... 107
2.8.6. Calculation line: PALLMAC.................................................................................. 108
2.8.7. Calculation line: EMBA244-2 .............................................................................. 108
2.8.8. Calculation line: GH01 ........................................................................................ 109
2.8.9. Calculation line: CHAIN01 ................................................................................... 110
2.8.10. Calculation line: CHAIN02 ................................................................................... 110
2.8.11. Calculation line: EMBA244-3 .............................................................................. 111
2.8.12. Calculation line: DIS01 ........................................................................................ 112
2.8.13. Calculation line: ROLL01 ..................................................................................... 112
2.8.14. Calculation line: ROLL02 ..................................................................................... 113
2.8.15. Calculation line: FEEDER ..................................................................................... 114
2.8.16. Bus Bar calculations: SP-EMBA244 .................................................................... 115
2.9. Sub-panel SP-EMA170 ......................................................................................... 116
2.9.1. Power demand ................................................................................................... 116
2.9.2. Calculation line: BCR01 ....................................................................................... 116
2.9.3. Calculation line: EMBA170 1 .............................................................................. 117
2.9.4. Calculation line: ELEVATOR ................................................................................ 118
2.9.5. Calculation line: TIER01 ...................................................................................... 118
2.9.6. Calculation line: ROBOT ...................................................................................... 119
2.9.7. Calculation line: EMBA170 2 .............................................................................. 120
2.9.8. Calculation line: HYDELEVATOR01 ..................................................................... 121
2.9.9. Calculation line: ROLL01 ..................................................................................... 121
Memoria
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2.9.10. Calculation line: HYDELEVATOR02 ...................................................................... 122
2.9.11. Calculation line: FEEDER ..................................................................................... 123
2.9.12. Calculation line: EMBA170 3 ............................................................................... 123
2.9.13. Calculation line: ROLL02 ..................................................................................... 124
2.9.14. Calculation line: ROLL03 ..................................................................................... 125
2.9.15. Calculation line: ROLL04 ..................................................................................... 125
2.9.16. Bus Bar calculations: SP-EMBA170 ..................................................................... 126
2.10. Sub-panel SP-PROD1 ........................................................................................... 127
2.10.1. Power demand .................................................................................................... 127
2.10.2. Calculation line: STR01 ........................................................................................ 128
2.10.3. Calculation line: STR02 ........................................................................................ 128
2.10.4. Calculation line: BALER01 ................................................................................... 129
2.10.5. Calculation line: BALER02 ................................................................................... 130
2.10.6. Calculation line: SEM01 ...................................................................................... 131
2.10.7. Calculation line: BIMA01 ..................................................................................... 131
2.10.8. Calculation line: PAMA01 ................................................................................... 132
2.10.9. Calculation line: EBR01 ....................................................................................... 133
2.10.10. Calculation line: ROLL01 ..................................................................................... 134
2.10.11. Calculation line: ROLL02 ..................................................................................... 135
2.10.12. Calculation line: ROLL03 ..................................................................................... 135
2.10.13. Calculation line: TRIFASIC PLUGS ........................................................................ 136
2.10.14. Bus Bar calculations: SP-PROD1 .......................................................................... 137
2.11. Sub-panel SP-WORKSHOP ................................................................................... 138
2.11.1. Power demand .................................................................................................... 138
2.11.2. Calculation line: LT1 ............................................................................................ 138
2.11.3. Calculation line: LT01 .......................................................................................... 139
2.11.4. Calculation line: PLUGS ....................................................................................... 140
2.11.5. Calculation line: EMERGENCY ............................................................................. 140
2.11.6. Calculation line: SERVICEBOX01 ......................................................................... 141
2.11.7. Calculation line: SERVICEBOX02 ......................................................................... 142
2.11.8. Calculation line: SERVICE BOXES ......................................................................... 142
2.11.9. Calculation line: AER01 ....................................................................................... 143
2.11.10. Bus Bar calculations: SP-WORKSHOP ................................................................. 144
2.12. Sub-panel SP-PROD2 ........................................................................................... 145
2.12.1. Power demand .................................................................................................... 145
2.12.2. Calculation line: DC01 ......................................................................................... 146
2.12.3. Calculation line: DC02 ......................................................................................... 146
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2.12.4. Calculation line: ST01 ......................................................................................... 147
2.12.5. Calculation line: SHEAR01 .................................................................................. 148
2.12.6. Calculation line: SM01 ........................................................................................ 149
2.12.7. Calculation line: CR01 ......................................................................................... 149
2.12.8. Calculation line: CR02 ......................................................................................... 150
2.12.9. Calculation line: PLUGS....................................................................................... 151
2.12.10. Calculation line: PROD2-1................................................................................... 152
2.12.11. Calculation line: DOOR01 ................................................................................... 152
2.12.12. Calculation line: DOOR02 ................................................................................... 153
2.12.13. Calculation line: DOOR03 ................................................................................... 154
2.12.14. Bus Bar calculations: SP-PROD2 ......................................................................... 155
2.13. Sub-panel SP-BOBST ............................................................................................ 156
2.13.1. Power demand ................................................................................................... 156
2.13.2. Calculation line: DC01 ......................................................................................... 156
2.13.3. Calculation line: BOBST1 .................................................................................... 157
2.13.4. Calculation line: PE01 ......................................................................................... 157
2.13.5. Calculation line: ROLLER ..................................................................................... 158
2.13.6. Calculation line: PLUGS....................................................................................... 159
2.13.7. Calculation line: LT01 .......................................................................................... 160
2.13.8. Bus Bar calculations: SP-BOBST .......................................................................... 160
2.14. Sub-panel SP-TRANSFER ...................................................................................... 161
2.14.1. Power demand ................................................................................................... 161
2.14.2. Calculation line: TRANSFER0 .............................................................................. 162
2.14.3. Calculation line: ROLLER04 ................................................................................. 163
2.14.4. Calculation line: ROLLER05 ................................................................................. 163
2.14.5. Calculation line: TRANSFER1 .............................................................................. 164
2.14.6. Calculation line: TRA01 ....................................................................................... 165
2.14.7. Calculation line: TRA02 ....................................................................................... 165
2.14.8. Calculation line: TRA03 ....................................................................................... 166
2.14.9. Calculation line: TRANSFER2 .............................................................................. 167
2.14.10. Calculation line: TRA04 ....................................................................................... 168
2.14.11. Calculation line: CAR01....................................................................................... 168
2.14.12. Calculation line: CAR02....................................................................................... 169
2.14.13. Calculation line: TRANSFER3 .............................................................................. 170
2.14.14. Calculation line: ROLLER01 ................................................................................. 170
2.14.15. Calculation line: ROLLER02 ................................................................................. 171
2.14.16. Calculation line: ROLLER03 ................................................................................. 172
Memoria
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2.14.17. Bus Bar calculations: SP-TRANSFER .................................................................... 172
2.15. Sub-panel SP-EXT ................................................................................................. 173
2.15.1. Power demand .................................................................................................... 173
2.15.2. Calculation line: DOOR01 .................................................................................... 174
2.15.3. Calculation line: DOOR02 .................................................................................... 174
2.15.4. Calculation line: BACKUP .................................................................................... 175
2.15.5. Bus Bar calculations: SP-EXT ............................................................................... 176
2.16. Sub-panel SP-SUCTION ........................................................................................ 177
2.16.1. Power demand .................................................................................................... 177
2.16.2. Calculation line: SP-SUC-VENT ............................................................................ 177
2.16.3. Calculation line: FTM1500 .................................................................................. 178
2.16.4. Calculation line: SUCTION 1 ................................................................................ 179
2.16.5. Calculation line: VAL-VEOLAR1500 ..................................................................... 180
2.16.6. Calculation line: SWITCHBOARD ......................................................................... 180
2.16.7. Calculation line: SUCTION 2 ................................................................................ 181
2.16.8. Calculation line: PLC ............................................................................................ 182
2.16.9. Calculation line: SIGNAL 24V .............................................................................. 182
2.16.10. Calculation line: BACKUP1 .................................................................................. 183
2.16.11. Calculation line: BACKUP2 .................................................................................. 184
2.16.12. Bus Bar calculations: SP-SUCTION ...................................................................... 184
2.17. Sub-panel SP-SUC-VENT ...................................................................................... 185
2.17.1. Power demand .................................................................................................... 185
2.17.2. Calculation line: CUT ........................................................................................... 186
2.17.3. Calculation line: SWITCHBOARD ......................................................................... 186
2.17.4. Calculation line: BACKUP1 .................................................................................. 187
2.17.5. Calculation line: BACKUP2 .................................................................................. 188
2.17.6. Bus Bar calculations: SP-SUC-VENT .................................................................... 189
2.18. Sub-panel SP-TOILETS .......................................................................................... 190
2.18.1. Power demand .................................................................................................... 190
2.18.2. Calculation line: TOILETS 1 .................................................................................. 190
2.18.3. Calculation line: LT01 .......................................................................................... 191
2.18.4. Calculation line: LT02 .......................................................................................... 192
2.18.5. Calculation line: EMERGENCY ............................................................................. 192
2.18.6. Calculation line: TOILETS 2 .................................................................................. 193
2.18.7. Calculation line: HDRY01..................................................................................... 194
2.18.8. Calculation line: HDRY02..................................................................................... 194
2.18.9. Calculation line: TOILETS 3 .................................................................................. 195
Electrification project in a box factory
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2.18.10. Calculation line: HDRY03 .................................................................................... 196
2.18.11. Calculation line: HDRY04 .................................................................................... 196
2.18.12. Calculation line: AIR01 ........................................................................................ 197
2.18.13. Calculation line: TOILETS 4 ................................................................................. 198
2.18.14. Calculation line: BACKUP1 .................................................................................. 198
2.18.15. Calculation line: BACKUP2 .................................................................................. 199
2.18.16. Calculation line: AUTDOOR ................................................................................ 200
2.18.17. Bus Bar calculations: SP-TOILETS........................................................................ 200
2.19. Sub-panel SP-OFFICES .......................................................................................... 201
2.19.1. Power demand ................................................................................................... 201
2.19.2. Calculation line: OFFICES 1 ................................................................................. 202
2.19.3. Calculation line: LT01 .......................................................................................... 203
2.19.4. Calculation line: LT02 .......................................................................................... 204
2.19.5. Calculation line: EMERGENCY ............................................................................ 204
2.19.6. Calculation line: OFFICES 2 ................................................................................. 205
2.19.7. Calculation line: LT03 .......................................................................................... 206
2.19.8. Calculation line: LT04 .......................................................................................... 206
2.19.9. Calculation line: LT05 .......................................................................................... 207
2.19.10. Calculation line: EMERGENCY ............................................................................ 208
2.19.11. Calculation line: OFFICES 3 ................................................................................. 208
2.19.12. Calculation line: PLUG01 .................................................................................... 209
2.19.13. Calculation line: PLUG02 .................................................................................... 210
2.19.14. Calculation line: PLUG03 .................................................................................... 210
2.19.15. Calculation line: CLI05 ........................................................................................ 211
2.19.16. Calculation line: OFFICES 4 ................................................................................. 212
2.19.17. Calculation line: PLUG04 .................................................................................... 213
2.19.18. Calculation line: PLUG05 .................................................................................... 213
2.19.19. Calculation line: PLUG06 .................................................................................... 214
2.19.20. Calculation line: OFFICES 5 ................................................................................. 215
2.19.21. Calculation line: CLI01 ........................................................................................ 215
2.19.22. Calculation line: CLI02 ........................................................................................ 216
2.19.23. Calculation line: CLI03 ........................................................................................ 217
2.19.24. Calculation line: CLI04 ........................................................................................ 217
2.19.25. Calculation line: DOOR ....................................................................................... 218
2.19.26. Bus Bar calculations: SP-OFFICES ....................................................................... 219
2.20. Sub-panel SP-INFORMATICS ................................................................................ 220
2.20.1. Power demand ................................................................................................... 220
Memoria
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2.20.2. Calculation line: PLUGSAI 1 ................................................................................. 221
2.20.3. Calculation line: PSAI11 ...................................................................................... 222
2.20.4. Calculation line: PSAI12 ...................................................................................... 222
2.20.5. Calculation line: PLUGSAI 2 ................................................................................. 223
2.20.6. Calculation line: PSAI10 ...................................................................................... 224
2.20.7. Calculation line: PSAI01 ...................................................................................... 224
2.20.8. Calculation line: PLUGSAI 3 ................................................................................. 225
2.20.9. Calculation line: PSAI02 ...................................................................................... 226
2.20.10. Calculation line: PSAI03 ...................................................................................... 226
2.20.11. Calculation line: PLUGSAI 4 ................................................................................. 227
2.20.12. Calculation line: PSAI04 ...................................................................................... 228
2.20.13. Calculation line: PSAI05 ...................................................................................... 228
2.20.14. Calculation line: PLUGSAI 5 ................................................................................. 229
2.20.15. Calculation line: PSAI06 ...................................................................................... 230
2.20.16. Calculation line: PSAI07 ...................................................................................... 230
2.20.17. Calculation line: PLUGSAI 6 ................................................................................. 231
2.20.18. Calculation line: PSAI08 ...................................................................................... 232
2.20.19. Calculation line: PSAI09 ...................................................................................... 232
2.20.20. Calculation line: AIRCON01 ................................................................................. 233
2.20.21. Calculation line: RACK 1 ...................................................................................... 234
2.20.22. Calculation line: RACK COM1 .............................................................................. 234
2.20.23. Calculation line: RACK SER1 ................................................................................ 235
2.20.24. Calculation line: RACK 2 ...................................................................................... 236
2.20.25. Calculation line: RACK COM2 .............................................................................. 236
2.20.26. Calculation line: RACK SER2 ................................................................................ 237
2.20.27. Calculation line: CCTV ......................................................................................... 238
2.20.28. Calculation line: SP-SAILOG................................................................................. 238
2.20.29. Calculation line: SP-RACK B ................................................................................. 239
2.20.30. Bus Bar calculations: SP-INFORMATICS .............................................................. 240
2.21. Sub-panel SP-SAILOG ........................................................................................... 241
2.21.1. Power demand .................................................................................................... 241
2.21.2. Calculation line: SAILOG ...................................................................................... 241
2.21.3. Calculation line: PSAI01 ...................................................................................... 242
2.21.4. Calculation line: PSAI02 ...................................................................................... 242
2.21.5. Calculation line: PSAI03 ...................................................................................... 243
2.21.6. Bus Bar calculations: SP-SAILOG ......................................................................... 244
2.22. Sub-panel SP-RACKB ............................................................................................ 245
Electrification project in a box factory
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2.22.1. Power demand ................................................................................................... 245
2.22.2. Calculation line: RACKB 1 ................................................................................... 245
2.22.3. Calculation line: PRACKB01 ................................................................................ 246
2.22.4. Calculation line: PRACKB02 ................................................................................ 246
2.22.5. Calculation line: RACKB 2 ................................................................................... 247
2.22.6. Calculation line: PRACKB03 ................................................................................ 248
2.22.7. Calculation line: PRACKB04 ................................................................................ 248
2.22.8. Bus Bar calculations: SP-RACKB .......................................................................... 249
2.23. Sub-panel SP-FIREPROT ....................................................................................... 250
2.23.1. Power demand ................................................................................................... 250
2.23.2. Calculation line: FIREPROT 1 .............................................................................. 250
2.23.3. Calculation line: LT01 .......................................................................................... 251
2.23.4. Calculation line: EMERGENCY ............................................................................ 252
2.23.5. Calculation line: PLUG ........................................................................................ 252
2.23.6. Calculation line: POWER GRILL ........................................................................... 253
2.23.7. Calculation line: CHLORINATION ........................................................................ 254
2.23.8. Calculation line: AEROTHERM ............................................................................ 255
2.23.9. Calculation line: RESISTANCE TANK ................................................................... 256
2.23.10. Bus Bar calculations: SP-FIREPROT ..................................................................... 256
2.24. Sub-panel SP-VENTILATION ................................................................................. 257
2.24.1. Power demand ................................................................................................... 257
2.24.2. Calculation line: CONTROL VENTILATION .......................................................... 258
2.24.3. Calculation line: EXTRACT01............................................................................... 259
2.24.4. Calculation line: EXTRACT02............................................................................... 259
2.24.5. Calculation line: EXTRACT03............................................................................... 260
2.24.6. Calculation line: EXTRACT04............................................................................... 261
2.24.7. Calculation line: EXTRACT05............................................................................... 262
2.24.8. Calculation line: EXTRACT06............................................................................... 263
2.24.9. Calculation line: BACKUP .................................................................................... 264
2.24.10. Calculation line: BACKUP .................................................................................... 264
2.24.11. Calculation line: BACKUP .................................................................................... 265
2.24.12. Bus Bar calculations: SP-VENTILATION .............................................................. 266
2.25. Sub-panel SP-LIGHTING ....................................................................................... 267
2.25.1. Power demand ................................................................................................... 267
2.25.2. Calculation line: LIGHTING1 ............................................................................... 268
2.25.3. Calculation line: LT01 .......................................................................................... 269
2.25.4. Calculation line: LT03 .......................................................................................... 269
Memoria
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2.25.5. Calculation line: EMERGENCY01 ......................................................................... 270
2.25.6. Calculation line: LIGHTING2 ................................................................................ 271
2.25.7. Calculation line: LT02 .......................................................................................... 271
2.25.8. Calculation line: LT04 .......................................................................................... 272
2.25.9. Calculation line: LT06 .......................................................................................... 273
2.25.10. Calculation line: LIGHTING3 ................................................................................ 273
2.25.11. Calculation line: LT05 .......................................................................................... 274
2.25.12. Calculation line: LT11 .......................................................................................... 275
2.25.13. Calculation line: LIGHTING4 ................................................................................ 275
2.25.14. Calculation line: LT07 .......................................................................................... 276
2.25.15. Calculation line: LT09 .......................................................................................... 277
2.25.16. Calculation line: EMERGENCY02 ......................................................................... 277
2.25.17. Calculation line: LIGHTING5 ................................................................................ 278
2.25.18. Calculation line: LT12 .......................................................................................... 279
2.25.19. Calculation line: LT13 .......................................................................................... 279
2.25.20. Calculation line: LT14 .......................................................................................... 280
2.25.21. Calculation line: LIGHTING6 ................................................................................ 281
2.25.22. Calculation line: LT08 .......................................................................................... 281
2.25.23. Calculation line: LT10 .......................................................................................... 282
2.25.24. Calculation line: DALI .......................................................................................... 283
2.25.25. Bus Bar calculations: SP-LIGHTING ..................................................................... 284
2.26. Sub-panel SP-DINING ........................................................................................... 285
2.26.1. Power demand .................................................................................................... 285
2.26.2. Calculation line: DINING 1 ................................................................................... 285
2.26.3. Calculation line: LT01 .......................................................................................... 286
2.26.4. Calculation line: EMERGENCY ............................................................................. 286
2.26.5. Calculation line: DINING 2 ................................................................................... 287
2.26.6. Calculation line: SEM01 ...................................................................................... 288
2.26.7. Calculation line: SEM02 ...................................................................................... 288
2.26.8. Calculation line: CPLUGS ..................................................................................... 289
2.26.9. Calculation line: DOOR ........................................................................................ 290
2.26.10. Bus Bar calculations: SP-DINING ......................................................................... 290
2.27. Sub-panel SP-DYE ................................................................................................. 291
2.27.1. Power demand .................................................................................................... 291
2.27.2. Calculation line: DYE 1 ........................................................................................ 292
2.27.3. Calculation line: DISP01 ...................................................................................... 292
2.27.4. Calculation line: AGI01 ........................................................................................ 293
Electrification project in a box factory
xiii
2.27.5. Calculation line: COM01 ..................................................................................... 294
2.27.6. Calculation line: DYE 2 ........................................................................................ 295
2.27.7. Calculation line: AIR01 ........................................................................................ 295
2.27.8. Calculation line: LIFT01 ....................................................................................... 296
2.27.9. Calculation line: AGI02 ....................................................................................... 297
2.27.10. Calculation line: SERBOX .................................................................................... 297
2.27.11. Calculation line: DYE 3 ........................................................................................ 298
2.27.12. Calculation line: LT01 .......................................................................................... 299
2.27.13. Calculation line: LT02 .......................................................................................... 299
2.27.14. Calculation line: LT03 .......................................................................................... 300
2.27.15. Calculation line: EMERGENCY ............................................................................ 301
2.27.16. Bus Bar calculations: SP-DYE .............................................................................. 301
2.28. GROUNDING CALCULATION ................................................................................ 302
3. PLANES ____________________________ Β‘ERROR! MARCADOR NO DEFINIDO.
3.1. SITUATION PLANE .................................................... Β‘Error! Marcador no definido.
3.2. SITE PLANE ............................................................... Β‘Error! Marcador no definido.
3.3. FLOOR PLANE: LOW LEVEL ...................................... Β‘Error! Marcador no definido.
3.3.1. PANEL DISTRIBUTION .............................................. Β‘Error! Marcador no definido.
3.3.2. DRIVING DISTRIBUTION ........................................... Β‘Error! Marcador no definido.
3.3.3. LIGHTING DISTRIBUTION ......................................... Β‘Error! Marcador no definido.
3.4. FLOOR PLANE: TOP LEVEL ........................................ Β‘Error! Marcador no definido.
3.4.1. PANEL DISTRIBUTION .............................................. Β‘Error! Marcador no definido.
3.4.2. DRIVING DISTRIBUTION ........................................... Β‘Error! Marcador no definido.
3.4.3. LIGHTING DISTRIBUTION ......................................... Β‘Error! Marcador no definido.
3.5. LINE DIAGRAM: CPM AND GENERAL PANEL OF CONTROL AND PROTECTION
.................................................................................. Β‘Error! Marcador no definido.
3.6. LINE DIAGRAM: SP-WEATHER ................................. Β‘Error! Marcador no definido.
3.7. LINE DIAGRAM: SP-COMP ........................................ Β‘Error! Marcador no definido.
3.8. LINE DIAGRAM: SP-WAREHOUSE ............................ Β‘Error! Marcador no definido.
3.9. LINE DIAGRAM:SP-OFILOG ...................................... Β‘Error! Marcador no definido.
3.10. LINE DIAGRAM: SP-EMBA244 .................................. Β‘Error! Marcador no definido.
3.11. LINE DIAGRAM: SP-EMBA170 .................................. Β‘Error! Marcador no definido.
3.12. LINE DIAGRAM: SP-PROD1 ...................................... Β‘Error! Marcador no definido.
3.13. LINE DIAGRAM: SP-WORKSHOP .............................. Β‘Error! Marcador no definido.
3.14. LINE DIAGRAM: SP-PROD2 ...................................... Β‘Error! Marcador no definido.
Memoria
xiv
3.15. LINE DIAGRAM: SP-BOBST ........................................ Β‘Error! Marcador no definido.
3.16. LINE DIAGRAM: SP-TRANSFER .................................. Β‘Error! Marcador no definido.
3.17. LINE DIAGRAM: SP-EXT ............................................. Β‘Error! Marcador no definido.
3.18. LINE DIAGRAM: SP-SUCTION .................................... Β‘Error! Marcador no definido.
3.19. LINE DIAGRAM: SP-SUC-VENT .................................. Β‘Error! Marcador no definido.
3.20. LINE DIAGRAM: SP-TOILETS ...................................... Β‘Error! Marcador no definido.
3.21. LINE DIAGRAM: SP-OFFICES ..................................... Β‘Error! Marcador no definido.
3.22. LINE DIAGRAM: SP-INFORMATICS ........................... Β‘Error! Marcador no definido.
3.23. LINE DIAGRAM: SP-SAILOG AND SP-RACKB ............. Β‘Error! Marcador no definido.
3.24. LINE DIAGRAM: SP-FIREPROT ................................... Β‘Error! Marcador no definido.
3.25. LINE DIAGRAM: SP-VENTILATION ............................ Β‘Error! Marcador no definido.
3.26. LINE DIAGRAM: SP-LIGHTING ................................... Β‘Error! Marcador no definido.
3.27. LINE DIAGRAM: SP-DINING ...................................... Β‘Error! Marcador no definido.
3.28. LINE DIAGRAM: SP-DYE ............................................ Β‘Error! Marcador no definido.
4. BUDGET ___________________________ Β‘ERROR! MARCADOR NO DEFINIDO.
Electrification project in a box factory
15
2. Electric calculations of the installation
In this chapter, we will explain the calculations of the electric lines, panels and protections.
2.1. Used formulas
We will use the next formulas:
2.1.1. Three-phase system
π° =π·π
πΌΒ·ππ¨π¬ πΒ·βπ= (π¨) (Eq. 2.1.1.)
π =π³Β·π·π
πΒ·πΌΒ·πΒ·π= (π½) (Eq. 2.1.2.)
2.1.2. Monophasic system
π° =π·π
πΌΒ·ππ¨π¬ π= (π¨) (Eq. 2.1.3.)
π =πΒ·π³Β·π·π
πΒ·πΌΒ·πΒ·π= (π½) (Eq. 2.1.4.)
Where:
Pc=Calculation power (W).
L=Calculation longitude (m).
e=Tension fall (V).
k=Conductivity (S/m).
I=Intensity (A).
U=Service voltage three-phase or monophasic (V).
Memoria
16
S=Conductor cross-section (mm2).
cos π=Power factor.
N=Number phase conductors.
2.1.3. Formula electrical conductivity
π =π
π (Eq. 2.1.5.)
π = πππ[π + πΆ(π» β ππ)] (Eq. 2.1.6.)
π» = π»π + [(π»πππ β π»π) Β· (π°
π°πππ)
π
] (Eq. 2.1.7.)
Where:
K=Conductivity of the conductor on T temperature.
π=Resistivity of the conductor on T temperature.
π20=Resistivity of the conductor on 20 degree.
Cu=0,018
Al=0,029
πΌ=Temperature coefficient.
Cu=0,00392
Al=0,00403
T=Conductor temperature (ΒΊC).
T0=Ambient temperature (ΒΊC).
Electrification project in a box factory
17
Buried cables=25ΒΊC
Outdoor cables=40ΒΊC
Tmax=Conductor maximum temperature admissible (ΒΊC).
XLPE, EPR=90ΒΊC
PVC=70ΒΊC
I=Expected intensity on the conductor (A).
Imax=Maximum intensity admissible on the conductor (A).
2.1.4. Overload formulas
π°π β€ π°π β€ π°π (Eq. 2.1.8.)
π°π β€ π, ππ π°π (Eq. 2.1.9.)
Where:
Ib=Used intensity on circuit.
Iz=Admissible intensity of the canalization according to UNE 20-460/5-523.
In=Nominal intensity of the protection element. For the adjustable elements, is the intensity
chosen.
I2=Intensity that ensures the operation of the protection element. We choose:
-For the automatic switch, to the operating intensity in conventional time: β€1,45In
-For Fuses, to the fusion intensity in conventional time: 1,6In.
2.1.5. Formula reactive energy compensation
ππ¨π¬ π =π·
βπ·π+πΈπ (Eq. 2.1.10.)
Memoria
18
πππ§ π =πΈ
π· (Eq. 2.1.11.)
πΈπͺ = π· Β· (πππ§ ππ β πππ§ ππ) (Eq. 2.1.12.)
πͺ =πΈπΒ·ππππ
πΌπΒ·π; (ππππππππππ πππ πππππ β πππππ ππ ππππ) (Eq. 2.1.13.)
πͺ =πΈπΒ·ππππ
πΒ·πΌπΒ·π; (πππππ β πππππ ππ ππππππππ) (Eq. 2.1.14.)
Where:
P=Installation active power (kW).
Q=Installation reactive power (kVAr).
Qc=Reactive power to compensate (kVAr).
π1=Offset angle of the installation to compensate.
π2=Offset angle to achieve.
U=Composed Voltage (V).
π = 2 Β· π β π; f=50Hz
C=Capacity of capacitors.
2.1.6. Formula short circuit
π°ππππ =πͺπΒ·πΌ
ππΒ·βπ (Eq. 2.1.15.)
Electrification project in a box factory
19
Where:
πΌππππ=Permanent intensity of short circuit at the beginning of the line.
Ct=Voltage coefficient.
U=Thee-phase voltage (V).
Zt=Total impedance in mohms, upstream of the short circuit point (not included the studied
line).
π°ππππ =πͺπΒ·πΌπ
πΒ·ππ (Eq. 2.1.16.)
Where:
Ippcf=Permanent current of short circuit on the end of the line (A).
Ct=Voltage coefficient.
Uf=Monophasic voltage (V).
Zt= Total impedance in mohms, included the studied line (is the same that the impedance on
the beginning plus the impedance of the line).
The total impedance to the short circuit point will be:
ππ = βπΉππ + πΏπ
π (Eq. 2.1.17.)
Where:
Rt=R1+R2+β¦+Rn (sum of the resistances of the lines upstream to the short circuit point).
Xt= X1+X2+β¦+Xn (sum of the reactance of the lines upstream to the short circuit point).
πΉ =π³Β·ππππΒ·πͺπΉ
π²Β·πΊΒ·π (πΞ©) (Eq. 2.1.18.)
Memoria
20
πΏ =π³Β·πΏπ
π (πΞ©) (Eq. 2.1.19.)
R=Resistance of the line (mΞ©).
X=Reactance of the line (mΞ©).
L=Longitude of the line (m).
CR=Resistivity coefficient.
K=Conductivity of the material.
S=Section of the line (mm2).
Xu=Reactance of the line (mΞ©/m)
N=Number of conductors per phase.
ππππππ =πͺπΒ·πΊπ
π°πππππ (Eq. 2.1.20.)
Where:
Tmcicc=Maximum time in seconds that a conductor supports an Ipcc.
Cc=Constant that depends on the conductor and their isolation.
S=Section of the line (mm2).
Ipccf=Permanent current of short circuit on the end of the line (A).
πππππ =ππππ ππππππππ
π°πππππ (Eq. 2.1.21.)
Electrification project in a box factory
21
Where:
tficc=Melting time of a fuse for a particular short circuit current.
IpccF= Permanent current of short circuit on the end of the line (A).
π³πππ =πͺπΒ·πΌπ
πΒ·π°ππΒ·β(πͺπ
π²Β·πΊΒ·π)
π+(
πΏππΒ·ππππ
)π (Eq. 2.1.22.)
Where:
πΏπππ₯=Maximum conductor longitude protected of a short circuit in meters (Protected by
fuses).
ππΉ=Phase voltage (V).
K=Conductivity.
S=Conductor section (mm2).
ππ’=Reactance per longitude (mΞ©/m). Usually 0,1 in isolated conductors.
n=Number of conductors per phase.
πΆπ‘=0,8; Tension coefficient.
πΆπ=1,5; Resistance coefficient.
πΌπΉ5=Melting current (A) of fuses in 5 seconds.
Valid curves for automatic interrupters with electromagnetic Relay.
Curve B Imag=5In
Curve C Imag=10In
Curve D & MA Imag=20In
2.1.7. Formula Bus bar
Electrodynamic calculation
Memoria
22
ππππ =π°πππ
π Β·π³π
ππΒ·π Β·πΎπΒ·π (Eq. 2.1.23.)
Where:
ππππ₯ =Maximum tension in the cooper (or aluminium) plates (kg/cm2).
Ipcc2=Permanent short circuit current (kA).
L=Distance between supports (cm).
d=Distance between plates (cm).
n=Number of plates per phase.
Wi=Module resistant per plate in the i-i axis (cm3).
Check for thermal request in short circuit
π°ππππ =π²πΒ·πΊ
ππππΒ·βπππ (Eq. 2.1.24.)
Where:
πΌππππ =Short circuit current supported by the conductor during time of short circuit (kA).
S=Section of the plates (mm2).
tcc=Duration of short circuit (s).
Kc=Conductor constant. Cu=164 ; Al=107.
2.1.8. Formula ground resistance
Buried plate
πΉπ =π,πΒ·π
π· (Eq. 2.1.25.)
Where:
Electrification project in a box factory
23
Rg=Ground resistance (Ξ©)
π =Land resistivity (Ω·m).
P=Plate perimeter (m).
Vertical pica
πΉπ =π
π³ (Eq. 2.1.26.)
Where:
Rg=Ground resistance (Ξ©)
π =Land resistivity (Ω·m).
L=Pica longitude (m).
Conductor buried horizontally
πΉπ = π Β·π
π³ (Eq. 2.1.27.)
Where:
Rg=Ground resistance (Ξ©)
π =Land resistivity (Ω·m).
L=Conductor longitude (m).
Parallel association of several electrodes
πΉπ =π
π³ππΒ·π
+π³π
π+
π·
π,πΒ·π
(Eq. 2.1.28.)
Where:
Memoria
24
Rg=Ground resistance (Ξ©)
π =Land resistivity (Ω·m).
Lc=Total conductor longitude (m).
Lp=Total pica longitude (m).
P=Plate perimeter (m).
2.2. General panel of control and protection
2.2.1. Power demand
-Total installed power:
General Distribution Panel 1.127.964 W
Switchboard 50 W
Lighting TS 64 W
Meter Plug 500 W
TOTAL: 1.128.578 W
-Lighting power: 30.490 W
-Driving power: 1.098.088 W
-Maximum admissible power: 630.000 W
2.2.2. Bus Bar calculations: Transformation Station
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Electrification project in a box factory
25
Used plate
Section: 500 mm2.
Amplitude: 100 mm.
Thickness: 5 mm.
Wx, Ix, Wi, li (cm3, cm4): 8,333 ; 41,66 ; 0,4166; 0,104.
I. admissible of the bus bar: 1.200 A.
a) Electrodynamic calculation
ππππ₯ =21,83
2 Β· 252
60 Β· 10 Β· 0,4166 Β· 1= 1.191,641 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 909,35 π΄
πΌπππ = 1.200 π΄
c) Check for thermal request in short circuit
πΌπππ = 21,83 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 500
1000 Β· β0,5= 115,97 ππ΄
2.2.3. Calculation line: CT
Service Voltage: 400 V.
Canalization: E-Unip. O Mult. Bandeja Perfor.
Longitude: 10 m; Cos π: 1; Xu: 0,1 mΞ©/m;
Apparent power of the transformer: 630 kVA.
Load index c=2,17.
πΌ =πΆπ‘ Β· ππ‘ Β· 1000
π Β· β3=
1 Β· 630 Β· 1000
400 Β· β3= 909,35π΄
We try unipolar conductors 4(4x240)mm2 Al
Level of insulation: 0,6/1 kV, XPLE+Pol (no fire propagator and low smoke emissions).
Designed: UNE: RZ1-AL(AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 1.420A.
Tray dimensions: 300x60mm. Useful section: 14.930 mm2.
Memoria
26
Tension fall:
Cable temperature: 60,5ΒΊC
π(ππππ‘πππ) =10Β·630000
29,64Β·400Β·4Β·240+
10Β·630000Β·0,1Β·0
1000Β·400Β·4Β·1= 0,55π = 0,14%
π(π‘ππ‘ππ)=0,14% maximum admissible 4,5%
Thermic protection:
Four pole automatic switch In: 1250A. Thermic regulation Ireg= 900A.
Differential protection:
Relay and differential transformer sensitivity: 500mA. AC class [s].
2.2.4. Calculation line: General distribution panel
Service Voltage: 400 V.
Canalization: D-Unip. O Mult. Conductor enterrad.
Longitude: 10 m; Cos π: 1; Xu: 0,1 mΞ©/m;
Power to install: 1.127.964 W.
Simultaneity factor: 0,5
Calculation power (according to ITC BT-44 and ITC BT-47):
π = 176.000 Β· 1,25 + 389.430 = 609.430 π
πΌ =609.430
400 Β· β3= 879,66π΄
We try unipolar conductors 4(4x240)mm2 Al
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RV-AL.
According to ITC BT-19 the maximum current admissible of the selected conductors at 25ΒΊC
is 1.044A.
Outer tube diameter: 4(225) mm.
Tension fall:
Cable temperature: 75,5ΒΊC
π(ππππ‘πππ) =27Β·609430
28,18Β·400Β·4Β·240= 1,52π = 0,38%
π(π‘ππ‘ππ)=0,52% maximum admissible 4,5%
Thermic protection at the end of the line
Electrification project in a box factory
27
Current of cut in load: I=1250A.
2.2.5. Calculation line: TS GROUP
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 614 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-44):
π = 665,2 π
πΌ =665,2
400 Β· β3 Β· 0,8= 1,2 π΄
We try unipolar conductors 4x4mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 27 A.
Tension fall:
Cable temperature: 40,06ΒΊC
π(ππππ‘πππ) =0,3Β·665,2
51,51Β·400Β·4= 0 π = 0%
π(π‘ππ‘ππ)=0,14% maximum admissible 4,5%
Thermic protection:
.Fuses 20 A.
2.2.6. Calculation line: SWITCHBOARD
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or built-in.
Longitude: 15 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 50 W.
Calculation power:π = 50 π
πΌ =50
230 Β· 1= 0,22 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Memoria
28
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,01ΒΊC
π(ππππ‘πππ) =2Β·15Β·50
51,52Β·230Β·1,5= 0,08π = 0,04%
π(π‘ππ‘ππ)=0,18% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
Differential protection:
Two pole differential switch I=25 A. Sens. I=300 mA. AC class.
2.2.7. Calculation line: LIGHTING TS
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or built-in.
Longitude: 15 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 64 W.
Calculation power (according to ITC-BT-44):
π = 64 Β· 1,8 = 115,2 π
πΌ =115,2
230 Β· 1= 0,5 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,03ΒΊC
Electrification project in a box factory
29
π(ππππ‘πππ) =2Β·15Β·115,2
51,51Β·230Β·1,5= 0,19π = 0,08%
π(π‘ππ‘ππ)=0,22% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
Differential protection:
Two pole differential switch I=25 A. Sens. I=300 mA. AC class.
2.2.8. Calculation line: METER PLUG
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or built-in.
Longitude: 15 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 500 W.
Calculation power:π = 500 π
πΌ =500
230 Β· 1= 2,17 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,63ΒΊC
π(ππππ‘πππ) =2Β·15Β·500
51,4Β·230Β·1,5= 0,85π = 0,37%
π(π‘ππ‘ππ)=0,51% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
Differential protection:
Two pole differential switch I=25 A. Sens. I=300 mA. AC class.
Memoria
30
2.2.9. Bus Bar calculations: General Panel
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 500 mm2.
Amplitude: 100 mm.
Thickness: 5 mm.
Wx, Ix, Wi, li (cm3, cm4): 8,333 ; 41,66 ; 0,4166; 0,104.
I. admissible of the bus bar: 1.200 A.
a) Electrodynamic calculation
ππππ₯ =20,96
2 Β· 252
60 Β· 10 Β· 0,4166 Β· 1= 1.098,656 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 879,66 π΄
πΌπππ = 1.200 π΄
c) Check for thermal request in short circuit
πΌπππ = 20,96 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 500
1000 Β· β0,5= 115,97 ππ΄
Electrification project in a box factory
31
2.3. Sub-panel General Panel
2.3.1. Power demand
-Total installed power:
SP-WEATHER 67.230 W
SP-COMP 102.100 W
SP-WAREHOUSE +SP-LOGOFF 62.995 W
SP-EMBA244 133.554 W
SP-EMBA170 164.750 W
SP-PROD1 57.144 W
SP-WORKSHOP 10.964 W
SP-PROD2 57.392 W
SP-BOBST 40.936 W
SP-TRANSFER 25.050 W
SP-EXIT 2.900 W
SP-SUCTION+SP-SUC-VENT 52.494 W
SP-TOILETS 10.782 W
SP-OFFICES 26.920 W
SP-INFORMATICS+ SP-SAILOG+ SP-RACKB 21.590 W
SP-FIREPROT 4.838 W
SP-VENTILATION 14.600 W
SP-LIGHTING 19.683 W
SP-DINING 4.529 W
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SP-DYE 10.328 W
SP-PUMP01 176.000 W
SP-PURIFICATION 11.185 W
SP-PRESS 18.000 W
SP-ELE 8.000 W
TOTAL: 1.095.946W
-Lighting power: W
-Driving power: W
-Maximum admissible power: W
2.3.2. Capacitor bank calculation
In the calculation of the reactive power to offset, to achieve a good power factor, that start with the
following data:
Supply: three-phase.
Composed voltage: 400 V.
Active power: 630.000 W.
Current cos π: 0,85.
cos π to achieve: 1.
Capacitor connexion: triangle.
We obtain, using the formula explained previously, the following results:
πΆ =ππ Β· 1000
3 Β· π2 Β· π=
37,74 Β· 1000
3 Β· 4002 Β· 2 Β· π Β· 50=
Reactive power to offset:
ππΆ = π Β· (tan π1 β tan π2) = 630 Β· (π‘ππ1 β π‘ππ0,85) = 264,02 πππ΄π
Regulation gamma: (1:2:4).
Step power: ππ
7= 37,74 πππ΄π
Capacitor capacity: 250,27 Β΅F.
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The sequence to be performed by reactive regulator to give signal to the different outputs is
(Regulation gamma 1:2:4; three outputs):
First output.
Second output.
First and second output.
Third output.
First and third output.
Second and third output.
First, second and third output.
We obtain the seven steps of equal power.
2.3.3. Calculation line: Capacitor bank
Service Voltage: 400 V.
Canalization: F-Unip. O Mult. Bandeja Perfor.
Longitude: 10 m; Xu: 0 mΞ©/m;
Reactive power: 264.020 VAr.
πΌ =πΆπ π Β· ππ
π Β· β3=
1,5 Β· 264.020
400 Β· β3= 571,57π΄
We try unipolar conductors 4(3x185+TTx95)mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 1.660A.
Tray dimensions: 300x60mm. Useful section: 14.930 mm2.
Tension fall:
Cable temperature: 46,62ΒΊC
π(ππππ‘πππ) =10Β·264.020
50,31Β·400Β·4Β·185= 0,19π = 0,05%
π(π‘ππ‘ππ)=0,57% maximum admissible 6,5%
Thermic protection:
Three pole automatic switch In: 1.000A. Thermic regulation Ireg= 800A.
Differential protection:
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Relay and differential transformer sensitivity: 300mA. AC class.
2.3.4. Calculation line: PUMP01
Service Voltage: 400 V.
Canalization: F-Unip. or Mult. Supports.
Longitude: 100 m; ; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 176.000 W.
Calculation power (according to ITC BT-47):
π = 176.000 Β· 1,25 = 220.000 π
πΌ =220.000
0,8 Β· 400 Β· β3= 396,94 π΄
We try unipolar conductors 4x240+TTx120mm2 Cu
Level of insulation: 0,6/1 kV, XPLE+Pol (no fire propagator, low smoke emissions and fire
resistant). Designed: UNE: RZ1-K(AS+).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 490A.
Tension fall:
Cable temperature: 72,81ΒΊC
π(ππππ‘πππ) =100Β·220.000
46,03Β·400Β·240= 4,98π = 1,24%
π(π‘ππ‘ππ)=1,76% maximum admissible 6,5%
Thermic protection:
Four pole automatic switch In: 630A. Thermic regulation Ireg= 490A.
Differential protection:
Relay and differential transformer sensitivity: 300mA. AC class.
2.3.1. Calculation line: PURIFICATION
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 140 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 11.185 W.
Calculation power: 11.185 W
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πΌ =11.185
β3 Β· 400= 16,14 π΄
We try four pole conductors 4x25+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 110A.
Tension fall:
Cable temperature: 41,08ΒΊC
π(ππππ‘πππ) =140Β·11.185
51,32Β·400Β·25= 3,05 π = 0,76%
π(π‘ππ‘ππ)=1,28% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=63 A
Differential protection:
Four pole differential switch I=63 A. Sens. I=300 mA. AC class [s].
Switching element
Four pole contactor In=63 A.
2.3.2. Calculation line: SP-ELE
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 115 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 25.000 W.
Simultaneity factor: 0,4.
Calculation power: 25.000
πΌ =25.000
β3 Β· 400 Β· 0,8= 45,11 π΄
We try four pole conductors 4x25+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE+Pol (no fire propagator and low smoke emissions).
Designed: UNE: RZ1-K(AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 110A.
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Tension fall:
Cable temperature: 48,41ΒΊC
π(ππππ‘πππ) =115Β·25.000
49,99Β·400Β·25= 5,75 π = 1,44%
π(π‘ππ‘ππ)=1,96% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=63 A
Differential protection:
Four pole differential switch I=63 A. Sens. I=300 mA. AC class [s].
2.3.3. Calculation line: SP-WEATHER
Service Voltage: 400 V.
Canalization: F-Unip. O Mult. Suporters.
Longitude: 60 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 67.230 W.
Simultaneity factor: 0,5
Calculation power (according to ITC BT-44 and ITC BT-47):
π = 1.810 Β· 1,25 + 31.953 = 34.215,5 π
πΌ =34.215,5
0,8 Β· 400 Β· β3= 61,73π΄
We try unipolar conductors 4x95+TTx50mm2 Cu
Level of insulation: 0,6/1 kV, XPLE+Pol (no fire propagator and low smoke emissions).
Designed: UNE: RZ1-K(AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 271A.
Tension fall:
Cable temperature: 42,59ΒΊC
π(ππππ‘πππ) =60Β·34.215,5
51,04Β·400Β·95= 1,06π = 0,26%
π(π‘ππ‘ππ)=0,78% maximum admissible 4,5%
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Thermic protection origin of line:
Four pole automatic switch In: 160 A. Thermic regulation Ireg= 160 A.
Thermic protection at the end of the line
Current of cut in load: I=160 A.
Differential protection origin of line:
Relay and differential transformer sensitivity: 300mA. AC class [s].
2.3.4. Calculation line: SP-COMP
Service Voltage: 400 V.
Canalization: F-Unip. O Mult. Suporters.
Longitude: 60 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 102.100 W.
Simultaneity factor: 0,6
Calculation power (according to ITC BT-44 and ITC BT-47):
π = 30.000 Β· 1,25 + 31.404 = 68.904 π
πΌ =68.904
0,8 Β· 400 Β· β3= 124,32 π΄
We try unipolar conductors 4x95+TTx50mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 271A.
Tension fall:
Cable temperature: 50,52ΒΊC
π(ππππ‘πππ) =60Β·68.904
49,62Β·400Β·95= 2,19 π = 0,55%
π(π‘ππ‘ππ)=1,07% maximum admissible 4,5%
Thermic protection origin of line:
Four pole automatic switch In: 160 A. Thermic regulation Ireg= 160 A.
Thermic protection at the end of the line
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Current of cut in load: I=160 A.
Differential protection origin of line:
Relay and differential transformer sensitivity: 300mA. AC class [s].
Switching element
Four pole contactor In=160 A.
2.3.5. Calculation line: SP-WASEHOUSE
Service Voltage: 400 V.
Canalization: F-Unip. O Mult. Suporters.
Longitude: 150 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 62.995 W.
Simultaneity factor: 0,8
Calculation power (according to ITC BT-44 and ITC BT-47):
π = 5.875 Β· 1,25 + 44.553 = 51.896,75 π
πΌ =51.896,75
0,8 Β· 400 Β· β3= 93,64 π΄
We try unipolar conductors 4x95+TTx50mm2 Cu
Level of insulation: 0,6/1 kV, XPLE+Pol (no fire propagator and low smoke emissions).
Designed: UNE: RZ1-K(AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 271A.
Tension fall:
Cable temperature: 45,97ΒΊC
π(ππππ‘πππ) =150Β·51.896,75
50,42Β·400Β·95= 4,06 π = 1,02%
π(π‘ππ‘ππ)=1,53% maximum admissible 4,5%
Thermic protection origin of line:
Four pole automatic switch In: 160 A. Thermic regulation Ireg= 100 A.
Thermic protection at the end of the line
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Current of cut in load: I=125 A.
Differential protection origin of line:
Relay and differential transformer sensitivity: 300mA. AC class [s].
2.3.6. Calculation line: SP-OFILOG
Service Voltage: 400 V.
Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 9.660 W.
Simultaneity factor: 1
Calculation power (according to ITC BT-44):
π = 9.700 π
πΌ =9.700
0,8 Β· 400 Β· β3= 17,5 π΄
We try four pole conductors 4x6+TTx6mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 37A.
Tension fall:
Cable temperature: 51,19ΒΊC
π(ππππ‘πππ) =20Β·9.700
49,5Β·400Β·6= 1,63 π = 0,41%
π(π‘ππ‘ππ)=1,94% maximum admissible 4,5%
Thermic protection origin of line:
Four pole magnetothermic switch I=25 A.
Thermic protection at the end of the line
Current of cut in load: I=63 A.
2.3.7. Calculation line: SP-EMBA244
Service Voltage: 400 V.
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Canalization: F-Unip. O Mult. Suporters.
Longitude: 140 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 133.554 W.
Simultaneity factor: 0,6
Calculation power (according to ITC BT-44 and ITC BT-47):
π = 5.500 Β· 1,25 + 74.632,41 = 81.507,41 π
πΌ =81.507,4
0,8 Β· 400 Β· β3= 124,32 π΄
We try unipolar conductors 4x240+TTx120mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS)
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 490A.
Tension fall:
Cable temperature: 44,5ΒΊC
π(ππππ‘πππ) =140Β·81.507,4
50,69Β·400Β·240= 2,35 π = 0,59%
π(π‘ππ‘ππ)=1,1% maximum admissible 4,5%
Thermic protection origin of line:
Four pole automatic switch In: 400 A. Thermic regulation Ireg= 400 A.
Thermic protection at the end of the line
Current of cut in load: I=400 A.
Differential protection origin of line:
Relay and differential transformer sensitivity: 300mA. AC class [s].
Switching element
Four pole contactor In=400 A.
2.3.8. Calculation line: SP-EMBA170
Service Voltage: 400 V.
Canalization: F-Unip. O Mult. Suporters.
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Longitude: 145 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 164.750 W.
Simultaneity factor: 0,6
Calculation power (according to ITC BT-44 and ITC BT-47):
π = 5.000 Β· 1,25 + 93.850,01 = 100.100,01 π
πΌ =100.100,01
0,8 Β· 400 Β· β3= 180,61 π΄
We try unipolar conductors 4x240+TTx120mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS)
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 490A.
Tension fall:
Cable temperature: 46,79ΒΊC
π(ππππ‘πππ) =145Β·100.100,01
50,28Β·400Β·240= 3,01 π = 0,75%
π(π‘ππ‘ππ)=1,27% maximum admissible 4,5%
Thermic protection origin of line:
Four pole automatic switch In: 400 A. Thermic regulation Ireg= 400 A.
Thermic protection at the end of the line
Current of cut in load: I=400 A.
Differential protection origin of line:
Relay and differential transformer sensitivity: 300mA. AC class [s].
Switching element
Four pole contactor In=400 A.
2.3.9. Calculation line: SP-PROD1
Service Voltage: 400 V.
Canalization: F-Unip. O Mult. Suporters.
Longitude: 60 m; Cos π: 0,8; Xu: 0 mΞ©/m;
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Power to install: 57.144 W.
Simultaneity factor: 0,5
Calculation power (according to ITC BT-47):
π = 9.400 Β· 1,25 + 19.172 = 30.922 π
πΌ =30.922
0,8 Β· 400 Β· β3= 55,79 π΄
We try four pole conductors 4x35+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K.
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 144 A.
Tension fall:
Cable temperature: 47,51ΒΊC
π(ππππ‘πππ) =60Β·30.922
50,15Β·400Β·35= 2,64π = 0,66%
π(π‘ππ‘ππ)=1,18% maximum admissible 4,5%
Thermic protection origin of line:
Four pole automatic switch In: 100 A. Thermic regulation Ireg= 80 A.
Thermic protection at the end of the line
Current of cut in load: I=160 A.
Differential protection origin of line:
Relay and differential transformer sensitivity: 300mA. AC class [s].
Switching element
Four pole contactor In=100 A.
2.3.10. Calculation line: SP-WORKSHOP
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 110 m; Cos π: 0,85; Xu: 0 mΞ©/m;
Power to install: 10.964 W.
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Simultaneity factor: 0,5
Calculation power (according to ITC BT-44 and ITC BT-47):
π = 80 Β· 1,25 + 5.710 = 5.810 π
πΌ =5.810
0,85 Β· 400 Β· β3= 9,87π΄
We try four pole conductors 4x25+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 110A.
Tension fall:
Cable temperature: 40,4ΒΊC
π(ππππ‘πππ) =110Β·5.810
51,44Β·400Β·25= 1,24π = 0,31%
π(π‘ππ‘ππ)=0,83% maximum admissible 4,5%
Thermic protection origin of line:
Four pole magnetothermic switch I=63 A
Thermic protection at the end of the line
Current of cut in load: I=63 A.
Differential protection origin of line:
Four pole differential switch I=63 A. Sens. I=300 mA. AC class.
Switching element
Four pole contactor In=63 A.
2.3.11. Calculation line: SP-PROD2
Service Voltage: 400 V.
Canalization: F-Unip. O Mult. Suporters.
Longitude: 80 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 57.392 W.
Simultaneity factor: 0,8
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Calculation power (according to ITC BT-47):
π = 22.080 Β· 1,25 + 23.833 = 51.433,6 π
πΌ =51.433,6
0,8 Β· 400 Β· β3= 92,8 π΄
We try unipolar conductors 4x70+TTx35mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 224 A.
Tension fall:
Cable temperature: 48,58ΒΊC
π(ππππ‘πππ) =80Β·51.433,6
49,96Β·400Β·70= 2,94π = 0,74%
π(π‘ππ‘ππ)=1,25% maximum admissible 4,5%
Thermic protection origin of line:
Four pole automatic switch In: 125 A. Thermic regulation Ireg= 125 A.
Thermic protection at the end of the line
Current of cut in load: I=125 A.
Differential protection origin of line:
Relay and differential transformer sensitivity: 300mA. AC class [s].
Switching element
Four pole contactor In=125 A.
2.3.12. Calculation line: SP-BOBST
Service Voltage: 400 V.
Canalization: F-Unip. O Mult. Suporters.
Longitude: 100 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 40.936 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-44 and ITC BT-47):
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π = 5.500 Β· 1,25 + 36.036 = 42.911 π
πΌ =42.911
0,8 Β· 400 Β· β3= 77,42 π΄
We try unipolar conductors 4x70+TTx35mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 224 A.
Tension fall:
Cable temperature: 45,97ΒΊC
π(ππππ‘πππ) =100Β·42.911
50,42Β·400Β·70= 3,04π = 0,76%
π(π‘ππ‘ππ)=1,28% maximum admissible 4,5%
Thermic protection origin of line:
Four pole automatic switch In: 125 A. Thermic regulation Ireg= 125 A.
Thermic protection at the end of the line
Current of cut in load: I=125 A.
Differential protection origin of line:
Relay and differential transformer sensitivity: 300mA. AC class [s].
Switching element
Four pole contactor In=125 A.
2.3.13. Calculation line: SP-TRANSFER
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 60 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 25.050 W.
Simultaneity factor: 0,4.
Calculation power (according to ITC BT-47):
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π = 5.500 Β· 1,25 + 4.520 = 11.395 π
πΌ =11.395
β3 Β· 400 Β· 0,8= 20,56 π΄
We try four pole conductors 4x25+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 110A.
Tension fall:
Cable temperature: 41,75ΒΊC
π(ππππ‘πππ) =60Β·11.395
51,19Β·400Β·25= 1,34 π = 0,33%
π(π‘ππ‘ππ)=0,85% maximum admissible 4,5%
Thermic protection origin of line:
Four pole magnetothermic switch I=63 A
Thermic protection at the end of the line
Current of cut in load: I=63 A.
Differential protection origin of line:
Four pole differential switch I=63 A. Sens. I=300 mA. AC class.
Switching element
Four pole contactor In=63 A.
2.3.14. Calculation line: SP-EXIT
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 150 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.900 W.
Simultaneity factor: 0,8.
Calculation power (according to ITC BT-47):
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π = 1.839 Β· 1,25 + 481 = 2.779,75 π
πΌ =2.779,75
β3 Β· 400 Β· 0,8= 5,02 π΄
We try four pole conductors 4x10+TTx10mm2 Cu
Level of insulation: 0,6/1 kV, XPLE+Pol (no fire propagator and low smoke emissions).
Designed: UNE: RZ1-K(AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 65A.
Tension fall:
Cable temperature: 40,3ΒΊC
π(ππππ‘πππ) =150Β·2.779,75
51,46Β·400Β·10= 2,03 π = 0,51%
π(π‘ππ‘ππ)=1,02% maximum admissible 4,5%
Thermic protection origin of line:
Four pole magnetothermic switch I=40 A
Thermic protection at the end of the line
Current of cut in load: I=63 A.
Differential protection origin of line:
Four pole differential switch I=40 A. Sens. I=300 mA. AC class [s].
2.3.15. Calculation line: SP-SUCTION
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 150 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 54.494 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-47):
π = 37.000 Β· 1,25 + 15.494 = 61.744 π
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πΌ =61.744
β3 Β· 400 Β· 0,8= 111,4 π΄
We try unipolar conductors 4x70+TTx35mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 214A.
Tension fall:
Cable temperature: 53,55ΒΊC
π(ππππ‘πππ) =150Β·61.744
49,1Β·400Β·70= 6,74 π = 1,68%
π(π‘ππ‘ππ)=2,2% maximum admissible 4,5%
Thermic protection origin of line:
Four pole automatic switch In: 125 A. Thermic regulation Ireg= 125 A.
Thermic protection at the end of the line
Current of cut in load: I=125 A.
Differential protection origin of line:
Relay and differential transformer sensitivity: 300mA. AC class [s].
Switching element
Four pole contactor In=125 A.
2.3.16. Calculation line: SP-TOILETS
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 100 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 10.782 W.
Simultaneity factor: 0,3
Calculation power (according to ITC BT-44 and ITC BT-47):
π = 1.000 Β· 1,25 + 2.400,2 = 53.650,2 π
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πΌ =3.650,2
0,85 Β· 400 Β· β3= 6,59π΄
We try four pole conductors 4x10+TTx10mm2 Cu
Level of insulation: 0,6/1 kV, XPLE+Pol (no fire propagator and low smoke emissions).
Designed: UNE: RZ1-K(AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 65A.
Tension fall:
Cable temperature: 40,51ΒΊC
π(ππππ‘πππ) =100Β·3.650,2
51,42Β·400Β·10= 1,77π = 0,44%
π(π‘ππ‘ππ)=0,96% maximum admissible 4,5%
Thermic protection origin of line:
Four pole magnetothermic switch I=40 A
Thermic protection at the end of the line
Current of cut in load: I=63 A.
Differential protection origin of line:
Four pole differential switch I=40 A. Sens. I=300 mA. AC class [s].
2.3.17. Calculation line: SP-OFFICES
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 40 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 26.920 W.
Simultaneity factor: 0,6
Calculation power (according to ITC BT-44 and ITC BT-47):
π = 1.705 Β· 1,25 + 14.572,28 = 16.703,53 π
πΌ =16.703,53
0,8 Β· 400 Β· β3= 30,14 π΄
We try four pole conductors 4x16+TTx16mm2 Cu
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Level of insulation: 0,6/1 kV, XPLE+Pol (no fire propagator and low smoke emissions).
Designed: UNE: RZ1-K(AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 87 A.
Tension fall:
Cable temperature: 46ΒΊC
π(ππππ‘πππ) =40Β·16.703,53
50,42Β·400Β·16= 2,07π = 0,52%
π(π‘ππ‘ππ)=1,04% maximum admissible 4,5%
Thermic protection origin of line:
Four pole magnetothermic switch I=50 A
Thermic protection at the end of the line
Current of cut in load: I=63 A.
Differential protection origin of line:
Four pole differential switch I=63 A. Sens. I=300 mA. AC class [s].
2.3.18. Calculation line: SP-INFORMATICS
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 75 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 21.590 W.
Simultaneity factor: 0,5.
Calculation power (according to ITC BT-47):
π = 690 Β· 1,25 + 10.105 = 10.967,5 π
πΌ =10.967,5
β3 Β· 400 Β· 0,8= 19,79 π΄
We try four pole conductors 4x25+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE+Pol (no fire propagator and low smoke emissions).
Designed: UNE: RZ1-K(AS).
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According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 110A.
Tension fall:
Cable temperature: 41,62ΒΊC
π(ππππ‘πππ) =75Β·10.967,5
51,22Β·400Β·25= 1,61 π = 0,4%
π(π‘ππ‘ππ)=0,92% maximum admissible 4,5%
Thermic protection origin of line:
Four pole magnetothermic switch I=63 A
Thermic protection at the end of the line
Current of cut in load: I=63 A.
Differential protection origin of line:
Four pole differential switch I=63 A. Sens. I=300 mA. AC class.
2.3.19. Calculation line: SP-FIREPROT
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 90 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 11.838 W.
Simultaneity factor: 0,1.
Calculation power (according to ITC BT-44 and ITC BT-47):
π = 1.250 Β· 1,25 + 10.628 = 12.190,5 π
πΌ =12.190,5
β3 Β· 400 Β· 0,8= 21,99 π΄
We try four pole conductors 4x25+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE+Pol (no fire propagator and low smoke emissions).
Designed: UNE: RZ1-K(AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 110A.
Memoria
52
Tension fall:
Cable temperature: 42ΒΊC
π(ππππ‘πππ) =90Β·12.190,5
51,14Β·400Β·25= 2,15 π = 0,54%
π(π‘ππ‘ππ)=1,05% maximum admissible 4,5%
Thermic protection origin of line:
Four pole magnetothermic switch I=63 A
Thermic protection at the end of the line
Current of cut in load: I=63 A.
Differential protection origin of line:
Four pole differential switch I=63 A. Sens. I=300 mA. AC class.
2.3.20. Calculation line: SP-VENTILATION
Service Voltage: 400 V.
Canalization: F-Unip. O Mult. Suporters.
Longitude: 80 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 14.603 W.
Simultaneity factor: 0,6.
Calculation power (according to ITC BT-47):
π = 2.400 Β· 1,25 + 6.361,8 = 9.361,8 π
πΌ =9.361,8
0,8 Β· 400 Β· β3= 16,89 π΄
We try unipolar conductors 4x50+TTx25mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 175 A.
Tension fall:
Cable temperature: 40,47ΒΊC
π(ππππ‘πππ) =80Β·9.361,8
51,43Β·400Β·50= 0,73π = 0,18%
π(π‘ππ‘ππ)=0,7% maximum admissible 4,5%
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Thermic protection origin of line:
Four pole automatic switch In: 100 A. Thermic regulation Ireg= 100 A.
Thermic protection at the end of the line
Current of cut in load: I=100 A.
Differential protection origin of line:
Relay and differential transformer sensitivity: 300mA. AC class [s].
Switching element
Four pole contactor In=100 A.
2.3.21. Calculation line: SP-LIGHTING
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 90 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 19.683 W.
Simultaneity factor: 0,5
Calculation power (according to ITC BT-44):
π = 9.841,5 π
πΌ =9.841,5
400 Β· β3= 14,21 π΄
We try four pole conductors 4x25+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE+Pol (no fire propagator and low smoke emissions).
Designed: UNE: RZ1-K(AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 110 A.
Tension fall:
Cable temperature: 40,83ΒΊC
π(ππππ‘πππ) =90Β·9.841,5
51,36Β·400Β·25= 1,72π = 0,43%
π(π‘ππ‘ππ)=0,95% maximum admissible 4,5%
Memoria
54
Thermic protection origin of line:
Four pole magnetothermic switch I=63 A
Thermic protection at the end of the line
Current of cut in load: I=63 A.
Differential protection origin of line:
Four pole differential switch I=63 A. Sens. I=300 mA. AC class [s].
2.3.22. Calculation line: SP-DINING
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 75 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 4.529 W.
Simultaneity factor: 0,5
Calculation power (according to ITC BT-44 and ITC BT-47):
π = 600 Β· 1,25 + 1.796,1 = 2.546,1 π
πΌ =2.546,1
400 Β· 0,8 Β· β3= 4,59 π΄
We try four pole conductors 4x6+TTx6mm2 Cu
Level of insulation: 0,6/1 kV, XPLE+Pol (no fire propagator and low smoke emissions).
Designed: UNE: RZ1-K(AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 46 A.
Tension fall:
Cable temperature: 40,5ΒΊC
π(ππππ‘πππ) =75Β·2.546,1
51,42Β·400Β·6= 1,55π = 0,39%
π(π‘ππ‘ππ)=0,91% maximum admissible 4,5%
Thermic protection origin of line:
Four pole magnetothermic switch I=20 A
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Thermic protection at the end of the line
Current of cut in load: I=63 A.
Differential protection origin of line:
Four pole differential switch I=40 A. Sens. I=300 mA. AC class [s].
2.3.23. Calculation line: SP-DYE
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 125 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 10.325 W.
Simultaneity factor: 0,5
Calculation power (according to ITC BT-44 and ITC BT-47):
π = 2.400 Β· 1,25 + 2.782,5 = 5.782,5 π
πΌ =5.782,5
400 Β· 0,8 Β· β3= 10,43 π΄
We try four pole conductors 4x10+TTx10mm2 Cu
Level of insulation: 0,6/1 kV, XPLE+Pol (no fire propagator and low smoke emissions).
Designed: UNE: RZ1-K(AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 65 A.
Tension fall:
Cable temperature: 41,29ΒΊC
π(ππππ‘πππ) =125Β·5.782,5
51,28Β·400Β·10= 3,52π = 0,88%
π(π‘ππ‘ππ)=1,4% maximum admissible 4,5%
Thermic protection origin of line:
Four pole magnetothermic switch I=40 A
Thermic protection at the end of the line
Current of cut in load: I=63 A.
Memoria
56
Differential protection origin of line:
Four pole differential switch I=40 A. Sens. I=300 mA. AC class [s].
2.3.24. Calculation line: SP-PRESS
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 120 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 18.000 W.
Calculation power: π = 18.000 π
πΌ =18.000
400 Β· 1 Β· β3= 25,98 π΄
We try four pole conductors 4x10+TTx10mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 65 A.
Tension fall:
Cable temperature: 47,99ΒΊC
π(ππππ‘πππ) =120Β·18.000
50,06Β·400Β·10= 10,79π = 2,7%
π(π‘ππ‘ππ)=3,22% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=40 A
Differential protection:
Four pole differential switch I=40 A. Sens. I=300 mA. AC class [s].
Switching element
Four pole contactor In=40 A.
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2.4. Sub-panel SP-WEATHER
2.4.1. Power demand
-Total installed power:
CP-GEOTHERMAL 50.000 W
GAS BOILER 940 W
LT-01 320 W
EMERGENCY 50 W
OFFICES PUMP 80 W
DRESSING ROOM PUMP 110 W
ACS PUMP 110 W
AIRCOND 10.000 W
FACTORY PUMP 1.810 W
WAREHOUSE PUMP 1.810 W
CONTROLPUMPS 2.000 W
2.4.2. Calculation line: CP-GEOTHERMAL
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 50.000 W.
Calculation power: 50.000 W.
πΌ =50.000
0,8 Β· 400 Β· β3= 90,21π΄
We try unipolar conductors 4x35+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
Memoria
58
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 119A.
Outer tube diameter: 50 mm.
Tension fall:
Cable temperature: 68,74ΒΊC
π(ππππ‘πππ) =15Β·50.000
46,54Β·400Β·35= 1,15π = 0,29%
π(π‘ππ‘ππ)=1,07% maximum admissible 6,5%
Thermic protection
Four pole automatic switch In: 100 A. Thermic regulation Ireg= 100 A.
2.4.3. Calculation line: GAS BOILER
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 12 m; Cos π: 0,8; Xu: 0 mΞ©/m; R:1;
Power to install: 940 W.
Calculation power (according to ITC BT-47):
π = 940 Β· 1,25 = 1.175 π
πΌ =1.175
1 Β· 0,8 Β· 400 Β· β3= 2,12π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Tension fall:
Cable temperature: 40,31ΒΊC
π(ππππ‘πππ) =12Β·1.175
51,46Β·400Β·2,5Β·1= 0,27π = 0,07%
π(π‘ππ‘ππ)=0,85% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
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Differential protection:
Four pole differential switch I=25 A. Sens. I=300 mA. AC class.
2.4.4. Calculation line: LT
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 370 W.
Simultaneity factor: 0,6.
Calculation power (according to ITC BT-44):
π = 399,6 π
πΌ =399,6
230 Β· 0,8= 2,17π΄
We try unipolar conductors 2x2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23 A.
Tension fall:
Cable temperature: 40,47ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·399,6
51,47Β·230Β·2,5= 0,01π = 0%
π(π‘ππ‘ππ)=0,79% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.4.5. Calculation line: LT-01
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 15 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 320 W.
Calculation power (according to ITC BT-44):
π = 320 Β· 1,8 = 576 π
Memoria
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πΌ =576
230= 2,5 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Tension fall:
Cable temperature: 40,84ΒΊC
π(ππππ‘πππ) =2Β·15Β·576
51,36Β·230Β·1,5= 0,98π = 0,42%
π(π‘ππ‘ππ)=1,21% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.4.6. Calculation line: EMERGENCY
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 15 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 50 W.
Calculation power (according to ITC BT-44):
π = 50 Β· 1,8 = 90 π
πΌ =90
230= 0,39 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Tension fall:
Cable temperature: 40,02ΒΊC
π(ππππ‘πππ) =2Β·15Β·90
51,51Β·230Β·1,5= 0,15π = 0,07%
π(π‘ππ‘ππ)=0,85% maximum admissible 4,5%
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Thermic protection:
Two pole magnetothermic switch I=10 A.
2.4.7. Calculation line: PUMPS-02
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 300 W.
Simultaneity factor: 0,6.
Calculation power (according to ITC BT-47):
π = 110π₯1,25 + 70 = 207,5 π
πΌ =207,5
400 Β· β3 Β· 0,8= 0,37π΄
We try unipolar conductors 4x10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 50 A.
Tension fall:
Cable temperature: 40ΒΊC
π(ππππ‘πππ) =0,3Β·207,5
51,52Β·400Β·10= 0 π = 0%
π(π‘ππ‘ππ)=0,78% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=63 A. Sens. I=300 mA. AC class.
2.4.8. Calculation line: OFFICES PUMP
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 114 m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
Power to install: 80 W.
Calculation power (according to ITC BT-47):
π = 80π₯1,25 = 100 π
Memoria
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πΌ =100
400 Β· β3 Β· 0,8 Β· 1= 0,18 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40ΒΊC
π(ππππ‘πππ) =114Β·100
51,52Β·400Β·2,5Β·1= 0,22π = 0,06%
π(π‘ππ‘ππ)=0,84% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Switching element
Four pole contactor In=16 A.
2.4.9. Calculation line: DRESSING ROOM PUMP
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 112 m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
Power to install: 110 W.
Calculation power (according to ITC BT-47):
π = 110π₯1,25 = 137,5 π
πΌ =137,5
400 Β· β3 Β· 0,8 Β· 1= 0,25 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
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Tension fall:
Cable temperature: 40,01ΒΊC
π(ππππ‘πππ) =112Β·137,5
51,52Β·400Β·2,5Β·1= 0,3π = 0,07%
π(π‘ππ‘ππ)=0,86% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Switching element
Four pole contactor In=16 A.
2.4.10. Calculation line: ACS PUMP
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 13 m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
Power to install: 110 W.
Calculation power (according to ITC BT-47):
π = 110π₯1,25 = 137,5 π
πΌ =137,5
400 Β· β3 Β· 0,8 Β· 1= 0,25 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,01ΒΊC
π(ππππ‘πππ) =13Β·137,5
51,52Β·400Β·2,5Β·1= 0,03π = 0,01%
π(π‘ππ‘ππ)=0,79% maximum admissible 6,5%
Thermic protection:
Memoria
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Four pole magnetothermic switch I=16 A.
Switching element
Four pole contactor In=16 A.
2.4.11. Calculation line: AIRCOND
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
Power to install: 10.000 W.
Calculation power (according to ITC BT-47):
π = 200π₯1,25 + 9.800 = 10.050 π
πΌ =10.050
400 Β· β3 Β· 0,8 Β· 1= 18,13π΄
We try unipolar conductors 4x6+TTx6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 36 A.
Tension fall:
Cable temperature: 47,61ΒΊC
π(ππππ‘πππ) =20Β·10.050
50,13Β·400Β·6= 1,67 π = 0,42%
π(π‘ππ‘ππ)=1,2% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=25 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=300 mA. AC class.
Switching element
Four pole contactor In=25 A.
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2.4.12. Calculation line: PUMPS-01
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 3.620 W.
Simultaneity factor: 0,6.
Calculation power (according to ITC BT-47):
π = 1.810π₯1,25 + 362 = 2.624,5 π
πΌ =2.624,5
400 Β· β3 Β· 0,8= 4,74 π΄
We try unipolar conductors 4x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 36 A.
Tension fall:
Cable temperature: 40,52ΒΊC
π(ππππ‘πππ) =0,3Β·2.624,5
51,42Β·400Β·6= 0,01 π = 0%
π(π‘ππ‘ππ)=0,78% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=40 A. Sens. I=300 mA. AC class.
2.4.13. Calculation line: FACTORY PUMP
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 14 m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
Power to install: 1.810 W.
Calculation power (according to ITC BT-47):
π = 1.810π₯1,25 = 2.262,5 π
πΌ =2.262,5
400 Β· β3 Β· 0,8 Β· 1= 4,08 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Memoria
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Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41,46ΒΊC
π(ππππ‘πππ) =14Β·2.262,5
51,24Β·400Β·2,5Β·1= 0,62π = 0,15%
π(π‘ππ‘ππ)=0,94% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Switching element
Four pole contactor In=16 A.
2.4.14. Calculation line: WAREHOUSE PUMP
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
Power to install: 1.810 W.
Calculation power (according to ITC BT-47):
π = 1.810π₯1,25 = 2.262,5 π
πΌ =2.262,5
400 Β· β3 Β· 0,8 Β· 1= 4,08 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41,46ΒΊC
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π(ππππ‘πππ) =15Β·2.262,5
51,24Β·400Β·2,5Β·1= 0,66π = 0,17%
π(π‘ππ‘ππ)=0,95% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Switching element
Four pole contactor In=16 A.
2.4.15. Calculation line: CONTROLPUMPS
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 14 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.000 W.
Calculation power: 2.000 W.
πΌ =2.000
400 Β· β3 Β· 0,8= 3,61 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41,14ΒΊC
π(ππππ‘πππ) =14Β·2.000
51,3Β·400Β·2,5= 0,55π = 0,14%
π(π‘ππ‘ππ)=0,92% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=300 mA. AC class.
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2.4.16. Bus Bar calculations: SP-WEATHER
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 100 mm2.
Amplitude: 20 mm.
Thickness: 5 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,333 ; 0,333 ; 0,083; 0,0208.
I. admissible of the bus bar: 290 A.
a) Electrodynamic calculation
ππππ₯ =9,5
2 Β· 252
60 Β· 10 Β· 0,083 Β· 1= 1.072,742 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 61,73 π΄
πΌπππ = 290 π΄
c) Check for thermal request in short circuit
πΌπππ = 9,25 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 100
1000 Β· β0,5= 23,19 ππ΄
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2.5. Sub-panel SP-COMP
2.5.1. Power demand
-Total installed power:
COM01 30.000 W
COM03 30.000 W
DRY01 300 W
LT01 250 W
EMERGENCY 50 W
COM02 15.000 W
SUCTION 15.500 W
PLUG01 2.500 W
SERVICE BOXES 3.000 W
SW V P 5.500 W
2.5.2. Calculation line: COM01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 30.000 W.
Calculation power (according to ITC BT-47):
π = 30.000 Β· 1,25 = 37.500 π
πΌ =37.500
0,8 Β· 400 Β· β3 Β· 1= 67,66 π΄
We try unipolar conductors 4x35+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 119A.
Outer tube diameter: 50 mm.
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Tension fall:
Cable temperature: 56,16ΒΊC
π(ππππ‘πππ) =25Β·37.500
48,66Β·400Β·35= 1,38 π = 0,34%
π(π‘ππ‘ππ)=1,41% maximum admissible 6,5%
Thermic protection
Four pole automatic switch In: 100 A. Thermic regulation Ireg= 100 A.
Differential protection:
Relay and differential transformer sensitivity: 300mA. AC class [s].
Switching element
Four pole contactor In=100 A.
2.5.3. Calculation line: COM03
Service Voltage: 400 V.
Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 30.000 W.
Calculation power (according to ITC BT-47):
π = 30.000 Β· 1,25 = 37.500 π
πΌ =37.500
0,8 Β· 400 Β· β3 Β· 1= 67,66 π΄
We try four pole conductors 4x35+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 110A.
Outer tube diameter: 50 mm.
Tension fall:
Cable temperature: 58,92ΒΊC
π(ππππ‘πππ) =25Β·37.500
48,2Β·400Β·35= 1,39 π = 0,35%
π(π‘ππ‘ππ)=1,41% maximum admissible 6,5%
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Thermic protection
Four pole automatic switch In: 100 A. Thermic regulation Ireg= 100 A.
Differential protection:
Relay and differential transformer sensitivity: 300mA. AC class [s].
Switching element
Four pole contactor In=100 A.
2.5.4. Calculation line: DRY01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 300 W.
Calculation power (according to ITC BT-47):
π = 300 Β· 1,25 = 375 π
πΌ =375
0,8 Β· 400 Β· β3 Β· 1= 0,68 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,04ΒΊC
π(ππππ‘πππ) =15Β·375
51,51Β·400Β·2,5= 0,11 π = 0,03%
π(π‘ππ‘ππ)=1,09% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
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Four pole differential switch I=25 A. Sens. I=300 mA. AC class.
Switching element
Four pole contactor In=16 A.
2.5.5. Calculation line: COMP-2
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 300 W.
Simultaneity factor: 0,5.
Calculation power (according to ITC BT-44):
π = 270 π
πΌ =270
230 Β· 0,8= 1,47 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23 A.
Tension fall:
Cable temperature: 40,12ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·270
51,49Β·230Β·2,5= 0,01π = 0%
π(π‘ππ‘ππ)=1,07% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.5.6. Calculation line: LT01
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or built-in.
Longitude: 15 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 250 W.
Calculation power (according to ITC BT-44):
π = 250 Β· 1,8 = 450 π
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πΌ =450
230 Β· 1= 1,96 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,51ΒΊC
π(ππππ‘πππ) =2Β·15Β·450
51,42Β·230Β·1,5= 0,76π = 0,33%
π(π‘ππ‘ππ)=1,4% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.5.7. Calculation line: EMERGENCY
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 15 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 50 W.
Calculation power (according to ITC BT-44):
π = 50 Β· 1,8 = 90 π
πΌ =90
230= 0,39 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,02ΒΊC
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π(ππππ‘πππ) =2Β·15Β·90
51,51Β·230Β·1,5= 0,15π = 0,07%
π(π‘ππ‘ππ)=1,14% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.5.8. Calculation line: COM02
Service Voltage: 400 V.
Canalization: B1-Unip.. Superficial tube or Built-in.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 15.000 W.
Calculation power (according to ITC BT-47):
π = 15.000 Β· 1,25 = 18.750 π
πΌ =18.750
0,8 Β· 400 Β· β3 Β· 1= 33,83 π΄
We try unipolar conductors 4x16+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 73A.
Outer tube diameter: 40 mm.
Tension fall:
Cable temperature: 50,74ΒΊC
π(ππππ‘πππ) =20Β·18.750
49,58Β·400Β·16= 1,18 π = 0,3%
π(π‘ππ‘ππ)=1,36% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=63 A.
Differential protection:
Four pole differential switch I=63 A. Sens. I=300 mA. AC class.
Switching element
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Four pole contactor In=63 A.
2.5.9. Calculation line: SUCTION
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 50 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 15.500 W.
Calculation power (according to ITC BT-47):
π = 500 Β· 1,25 + 15.000 = 15.625 π
πΌ =15.625
0,8 Β· 400 Β· β3 Β· 1= 28,19 π΄
We try unipolar conductors 4x10+TTx10mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 54A.
Outer tube diameter: 32 mm.
Tension fall:
Cable temperature: 53,63ΒΊC
π(ππππ‘πππ) =50Β·15.625
49,09Β·400Β·10= 3,98 π = 0,99%
π(π‘ππ‘ππ)=2,06% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=32 A.
Differential protection:
Four pole differential switch I=40 A. Sens. I=300 mA. AC class.
2.5.10. Calculation line: PLUG01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 2.500 W.
Calculation power: 2.500 W
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πΌ =2.500
0,8 Β· 400 Β· β3 Β· 1= 4,51 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41,78ΒΊC
π(ππππ‘πππ) =25Β·2.500
51,18Β·400Β·2,5= 1,22 π = 0,31%
π(π‘ππ‘ππ)=1,37% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.5.11. Calculation line: SERVICE BOXES
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 3.000 W.
Calculation power: 3.000 W
πΌ =3.000
0,8 Β· 400 Β· β3= 5,41 π΄
We try unipolar conductors 4x10+TTx10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 44A.
Outer tube diameter: 32 mm.
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Tension fall:
Cable temperature: 40,45ΒΊC
π(ππππ‘πππ) =15Β·3.000
51,43Β·400Β·10= 0,22 π = 0,05%
π(π‘ππ‘ππ)=1,12% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=40 A.
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.5.12. Calculation line: SW V P
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 5.500 W.
Calculation power (according to ITC BT-47):
π = 500 Β· 1,25 + 5.000 = 5.625 π
πΌ =5.625
0,8 Β· 400 Β· β3 Β· 1= 10,15 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 49,03ΒΊC
π(ππππ‘πππ) =20Β·5.625
59,88Β·400Β·2,5= 2,23 π = 0,56%
π(π‘ππ‘ππ)=1,63% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
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Differential protection:
Four pole differential switch I=25 A. Sens. I=300 mA. AC class.
2.5.13. Bus Bar calculations: SP-COMP
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 100 mm2.
Amplitude: 20 mm.
Thickness: 5 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,333 ; 0,333 ; 0,083; 0,0208.
I. admissible of the bus bar: 290 A.
a) Electrodynamic calculation
ππππ₯ =9,5
2 Β· 252
60 Β· 10 Β· 0,083 Β· 1= 1.072,742 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 124,32 π΄
πΌπππ = 290 π΄
c) Check for thermal request in short circuit
πΌπππ = 9,25 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 100
1000 Β· β0,5= 23,19 ππ΄
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2.6. Sub-panel SP-WAREHOUSE
2.6.1. Power demand
-Total installed power:
CBA01 1.000 W
CBA02 1.000 W
CBA03 7.000 W
CBA04 20.000 W
DOOR01 1.104 W
DOOR02 1.472 W
DOOR03 1.235 W
DOOR04 1.500 W
LP01 2.944 W
LP02 2.944 W
AER01 1.360 W
AER02 700 W
AER03 700W
SB 4.500 W
SP-OFILOG 9.660 W
BRIDGE 5.875 W
BACKUP 0 W
2.6.2. Calculation line: WAREHOUSE 0
Service Voltage: 230 V.
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Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.000 W.
Simultaneity factor: 0,5.
Calculation power: 1.000 W
πΌ =1.000
0,8 Β· 230= 5,43 π΄
We try unipolar conductors 2x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40A.
Tension fall:
Cable temperature: 40,55ΒΊC
π(ππππ‘πππ) =2Β·2,3Β·1.000
51,41Β·230Β·6= 0,01 π = 0%
π(π‘ππ‘ππ)=1,54% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.6.3. Calculation line: CBA01
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 18 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power: 1.000 W
πΌ =1.000
0,8 Β· 230= 5,43 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
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Cable temperature: 42,01ΒΊC
π(ππππ‘πππ) =2Β·18Β·1.000
51,14Β·230Β·2,5= 1,22 π = 0,53%
π(π‘ππ‘ππ)=2,07% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
2.6.4. Calculation line: CBA02
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 19 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power: 1.000 W
πΌ =1.000
0,8 Β· 230= 5,43 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,01ΒΊC
π(ππππ‘πππ) =2Β·19Β·1.000
51,14Β·230Β·2,5= 1,29 π = 0,56%
π(π‘ππ‘ππ)=2,1% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
2.6.5. Calculation line: WAREHOUSE 1
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 27.000 W.
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Simultaneity factor: 1.
Calculation power: 27.000 W
πΌ =27.000
0,8 Β· 400 Β· β3= 48,72 π΄
We try unipolar conductors 4x16mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 66A.
Tension fall:
Cable temperature: 56,34ΒΊC
π(ππππ‘πππ) =0,3Β·27.000
48,63Β·400Β·16= 0,03 π = 0,01%
π(π‘ππ‘ππ)=1,54% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=63 A. Sens. I=30 mA. AC class.
2.6.6. Calculation line: CBA3
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 22 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 7.000 W.
Simultaneity factor: 1.
Calculation power: 7.000 W
πΌ =7.000
0,8 Β· 400 Β· β3= 12,63 π΄
We try unipolar conductors 4x4+TTx4mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 24A.
Outer tube diameter: 25 mm.
Tension fall:
Cable temperature: 48,31ΒΊC
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π(ππππ‘πππ) =22Β·7.000
50,01Β·400Β·4= 1,92 π = 0,48%
π(π‘ππ‘ππ)=2,02% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.6.7. Calculation line: CBA4
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 22 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 20.000 W.
Simultaneity factor: 1.
Calculation power: 20.000 W
πΌ =20.000
0,8 Β· 400 Β· β3= 36,09 π΄
We try unipolar conductors 4x10+TTx10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 44A.
Outer tube diameter: 32 mm.
Tension fall:
Cable temperature: 60,18ΒΊC
π(ππππ‘πππ) =22Β·20.000
48Β·400Β·10= 2,29 π = 0,57%
π(π‘ππ‘ππ)=2,11% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=40 A.
2.6.8. Calculation line: WAREHOUSE 2
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.576 W.
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Simultaneity factor: 0,5
Calculation power (according to ITC BT-47):
π = 368 Β· 1,25 + 920 = 1.380 π
πΌ =1.380
0,8 Β· 400 Β· β3= 2,49 π΄
We try unipolar conductors 4x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 36A.
Tension fall:
Cable temperature: 40,14ΒΊC
π(ππππ‘πππ) =0,3Β·1.380
51,49Β·400Β·6= 0 π = 0%
π(π‘ππ‘ππ)=1,54% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.6.9. Calculation line: DOOR01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 56 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 1.104 W.
Calculation power (according to ITC BT-47):
π = 368 Β· 1,25 + 736 = 1.196 π
πΌ =1.196
0,8 Β· 400 Β· β3 Β· 1= 2,16 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
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Cable temperature: 40,41ΒΊC
π(ππππ‘πππ) =56Β·1.196
51,44Β·400Β·2,5= 1,3 π = 0,33%
π(π‘ππ‘ππ)=1,86% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.6.10. Calculation line: DOOR02
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 54 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 1.472 W.
Calculation power (according to ITC BT-47):
π = 368 Β· 1,25 + 1.104 = 1.564 π
πΌ =1.564
0,8 Β· 400 Β· β3 Β· 1= 2,82 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,7ΒΊC
π(ππππ‘πππ) =54Β·1.564
51,39Β·400Β·2,5= 1,64 π = 0,41%
π(π‘ππ‘ππ)=1,95% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.6.11. Calculation line: WAREHOUSE 3
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
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Power to install: 2.735 W.
Simultaneity factor: 0,8
Calculation power (according to ITC BT-47):
π = 1.500 Β· 1,25 + 688 = 2.563 π
πΌ =2.563
0,8 Β· 400 Β· β3= 4,62 π΄
We try unipolar conductors 4x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 36A.
Tension fall:
Cable temperature: 40,5ΒΊC
π(ππππ‘πππ) =0,3Β·2.563
51,42Β·400Β·6= 0,01 π = 0%
π(π‘ππ‘ππ)=1,54% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.6.12. Calculation line: DOOR03
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 54 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 1.235 W.
Calculation power (according to ITC BT-47):
π = 368 Β· 1,25 + 867 = 1.327 π
πΌ =1.327
0,8 Β· 400 Β· β3 Β· 1= 2,39 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
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Tension fall:
Cable temperature: 40,5ΒΊC
π(ππππ‘πππ) =54Β·1.327
51,42Β·400Β·2,5= 1,39 π = 0,35%
π(π‘ππ‘ππ)=1,88% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.6.13. Calculation line: DOOR04
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 55 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 1.500 W.
Calculation power (according to ITC BT-47):
π = 1.500 Β· 1,25 = 1.875 π
πΌ =1.875
0,8 Β· 400 Β· β3 Β· 1= 3,38 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41ΒΊC
π(ππππ‘πππ) =55Β·1.875
51,33Β·400Β·2,5= 2,01 π = 0,5%
π(π‘ππ‘ππ)=2,04% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.6.14. Calculation line: WAREHOUSE 4
Service Voltage: 400 V.
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Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 5.888 W.
Simultaneity factor: 0,5
Calculation power (according to ITC BT-47):
π = 1.472 Β· 1,25 + 1.472 = 3.312 π
πΌ =3.312
0,8 Β· 400 Β· β3= 5,98 π΄
We try unipolar conductors 4x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 36A.
Tension fall:
Cable temperature: 40,83ΒΊC
π(ππππ‘πππ) =0,3Β·3.312
51,36Β·400Β·6= 0,01 π = 0%
π(π‘ππ‘ππ)=1,54% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.6.15. Calculation line: LP01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 55 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 2.944 W.
Calculation power (according to ITC BT-47):
π = 1.472 Β· 1,25 + 1.472 = 3.312 π
πΌ =3.312
0,8 Β· 400 Β· β3 Β· 1= 5,98 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
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Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 43,13ΒΊC
π(ππππ‘πππ) =55Β·3.312
50,94Β·400Β·2,5= 3,58 π = 0,89%
π(π‘ππ‘ππ)=2,43% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.6.16. Calculation line: LP02
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 55 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 2.944 W.
Calculation power (according to ITC BT-47):
π = 1.472 Β· 1,25 + 1.472 = 3.312 π
πΌ =3.312
0,8 Β· 400 Β· β3 Β· 1= 5,98 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 43,13ΒΊC
π(ππππ‘πππ) =55Β·3.312
50,94Β·400Β·2,5= 3,58 π = 0,89%
π(π‘ππ‘ππ)=2,43% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
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2.6.17. Calculation line: WAREHOUSE 5
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.760 W.
Simultaneity factor: 0,5
Calculation power (according to ITC BT-47):
π = 100 Β· 1,25 + 1.280 = 1.405 π
πΌ =1.405
0,8 Β· 400 Β· β3= 2,54 π΄
We try unipolar conductors 4x10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 50A.
Tension fall:
Cable temperature: 40,08ΒΊC
π(ππππ‘πππ) =0,3Β·1.405
51,5Β·400Β·10= 0 π = 0%
π(π‘ππ‘ππ)=1,53% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=63 A. Sens. I=30 mA. AC class.
2.6.18. Calculation line: AER01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 35 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 1.360 W.
Calculation power (according to ITC BT-47):
π = 80 Β· 1,25 + 1.280 = 1.380 π
πΌ =1.380
0,8 Β· 400 Β· β3 Β· 1= 2,49 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
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Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,54ΒΊC
π(ππππ‘πππ) =35Β·1.380
51,42Β·400Β·2,5= 0,94 π = 0,23%
π(π‘ππ‘ππ)=2,77% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.6.19. Calculation line: AER02
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 36 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 700 W.
Calculation power (according to ITC BT-47):
π = 100 Β· 1,25 + 600 = 725 π
πΌ =725
0,8 Β· 400 Β· β3 Β· 1= 1,31 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,15ΒΊC
π(ππππ‘πππ) =36Β·725
51,49Β·400Β·2,5= 0,51 π = 0,13%
π(π‘ππ‘ππ)=1,66% maximum admissible 6,5%
Thermic protection:
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Four pole magnetothermic switch I=16 A.
2.6.20. Calculation line: AER03
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 37 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 700 W.
Calculation power (according to ITC BT-47):
π = 100 Β· 1,25 + 600 = 725 π
πΌ =725
0,8 Β· 400 Β· β3 Β· 1= 1,31 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,15ΒΊC
π(ππππ‘πππ) =37Β·725
51,49Β·400Β·2,5= 0,52 π = 0,13%
π(π‘ππ‘ππ)=1,66% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.6.21. Calculation line: SB
Service Voltage: 400 V.
Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 32 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 4.500 W.
Calculation power: 4.500 W
πΌ =4.500
0,8 Β· 400 Β· β3= 8,12 π΄
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We try four pole conductors 4x10+TTx10mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 52A.
Outer tube diameter: 32 mm.
Tension fall:
Cable temperature: 41,22ΒΊC
π(ππππ‘πππ) =32Β·4.500
51,29Β·400Β·10= 0,7 π = 0,18%
π(π‘ππ‘ππ)=1,71% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.6.22. Calculation line: BRIDGE
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 50 m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
Power to install: 5.875 W.
Calculation power (according to ITC BT-47):
π = 5.875π₯1,25 = 7.343,75 π
πΌ =7.343,75
400 Β· β3 Β· 0,8 Β· 1= 13,25 π΄
We try unipolar conductors 4x10+TTx10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 44 A.
Outer tube diameter: 32 mm.
Tension fall:
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Cable temperature: 42,72ΒΊC
π(ππππ‘πππ) =50Β·7.343,75
51,01Β·400Β·10Β·1= 1,8π = 0,45%
π(π‘ππ‘ππ)=1,98% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=40 A.
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class
2.6.23. Calculation line: BACKUP
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 8 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1 W.
π = 1 π
πΌ =1
400 Β· β3 Β· 0,8 Β· 1= 0 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40ΒΊC
π(ππππ‘πππ) =8Β·1
51,52Β·400Β·2,5= 0π = 0%
π(π‘ππ‘ππ)=1,53% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
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Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.6.24. Bus Bar calculations: SP-WAREHOUSE
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 45 mm2.
Amplitude: 15 mm.
Thickness: 3 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,112 ; 0,084 ; 0,022; 0,003.
I. admissible of the bus bar: 170 A.
a) Electrodynamic calculation
ππππ₯ =4,48
2 Β· 252
60 Β· 10 Β· 0,022 Β· 1= 1.072,742 β€ 950,944
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 93,64 π΄
πΌπππ = 170 π΄
c) Check for thermal request in short circuit
πΌπππ = 4,48 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 45
1000 Β· β0,5= 10,44 ππ΄
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2.7. Sub-panel SP-OFILOG
2.7.1. Power demand
-Total installed power:
LT01 595 W
EMERGENCY 65 W
PLUGS 01 1.500 W
PLUGS 02 1.500 W
PLUGS 03 1.500 W
PLUGS 04 1.500 W
CLI01 1.500 W
CLI02 1.500 W
2.7.2. Calculation line: LT
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 660 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-44):
π = 700 π
πΌ =700
230 Β· 0,8= 3,8 π΄
We try unipolar conductors 2x2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23 A.
Tension fall:
Cable temperature: 40,82ΒΊC
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π(ππππ‘πππ) =2Β·0,3Β·700
51,36Β·230Β·2,5= 0,01π = 0,01%
π(π‘ππ‘ππ)=1,95% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.7.3. Calculation line: LT01
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or built-in.
Longitude: 15 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 595 W.
Calculation power (according to ITC BT-44):
π = 595 π
πΌ =595
230 Β· 1= 2,59 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,89ΒΊC
π(ππππ‘πππ) =2Β·15Β·595
51,35Β·230Β·1,5= 1,01π = 0,44%
π(π‘ππ‘ππ)=2,39% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.7.4. Calculation line: EMERGENCY
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 15 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 65 W.
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Calculation power (according to ITC BT-44):
π = 50 Β· 1,8 + 15 = 105 π
πΌ =105
230= 0,46 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,03ΒΊC
π(ππππ‘πππ) =2Β·15Β·105
51,51Β·230Β·1,5= 0,18π = 0,08%
π(π‘ππ‘ππ)=2,03% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.7.5. Calculation line: PLUGS01
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 4.500 W.
Simultaneity factor: 1.
Calculation power: 4.500 W
πΌ =4.500
0,8 Β· 230= 24,46 π΄
We try unipolar conductors 2x4mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 31A.
Tension fall:
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Cable temperature: 58,67ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·4.500
48,24Β·230Β·4= 0,06 π = 0,03%
π(π‘ππ‘ππ)=1,97% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.7.6. Calculation line: PLUGS 1
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.500 W.
Calculation power: 1.500 W
πΌ =1.500
0,8 Β· 230= 8,15 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,52ΒΊC
π(ππππ‘πππ) =2Β·15Β·1.500
50,68Β·230Β·2,5= 1,54 π = 0,67%
π(π‘ππ‘ππ)=2,64% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=10 A
2.7.7. Calculation line: PLUGS 2
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.500 W.
Calculation power: 1.500 W
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πΌ =1.500
0,8 Β· 230= 8,15 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,52ΒΊC
π(ππππ‘πππ) =2Β·15Β·1.500
50,68Β·230Β·2,5= 1,54 π = 0,67%
π(π‘ππ‘ππ)=2,64% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=10 A
2.7.8. Calculation line: PLUGS 3
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.500 W.
Calculation power: 1.500 W
πΌ =1.500
0,8 Β· 230= 8,15 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,52ΒΊC
π(ππππ‘πππ) =2Β·15Β·1.500
50,68Β·230Β·2,5= 1,54 π = 0,67%
π(π‘ππ‘ππ)=2,64% maximum admissible 6,5%
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Thermic protection:
Two pole magnetothermic switch I=10 A
2.7.9. Calculation line: PLUGS02
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 4.500 W.
Simultaneity factor: 1.
Calculation power: 4.500 W
πΌ =4.500
0,8 Β· 230= 24,46 π΄
We try unipolar conductors 2x4mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 31A.
Tension fall:
Cable temperature: 58,67ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·4.500
48,24Β·230Β·4= 0,06 π = 0,03%
π(π‘ππ‘ππ)=1,97% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.7.10. Calculation line: PLUGS 4
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.500 W.
Calculation power: 1.500 W
πΌ =1.500
0,8 Β· 230= 8,15 π΄
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We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,52ΒΊC
π(ππππ‘πππ) =2Β·15Β·1.500
50,68Β·230Β·2,5= 1,54 π = 0,67%
π(π‘ππ‘ππ)=2,64% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=10 A
2.7.11. Calculation line: CLI01
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.500 W.
Calculation power: 1.500 W
πΌ =1.500
0,8 Β· 230= 8,15 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,52ΒΊC
π(ππππ‘πππ) =2Β·15Β·1.500
50,68Β·230Β·2,5= 1,54 π = 0,67%
π(π‘ππ‘ππ)=2,64% maximum admissible 6,5%
Thermic protection:
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Two pole magnetothermic switch I=10 A
2.7.12. Calculation line: CLI02
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.500 W.
Calculation power: 1.500 W
πΌ =1.500
0,8 Β· 230= 8,15 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,52ΒΊC
π(ππππ‘πππ) =2Β·15Β·1.500
50,68Β·230Β·2,5= 1,54 π = 0,67%
π(π‘ππ‘ππ)=2,64% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=10 A
2.7.13. Bus Bar calculations: SP-WEATHER
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
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Section: 24 mm2.
Amplitude: 12 mm.
Thickness: 2 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,048 ; 0,0288 ; 0,008; 0,0008.
I. admissible of the bus bar: 110 A.
a) Electrodynamic calculation
ππππ₯ =1,56
2 Β· 252
60 Β· 10 Β· 0,008 Β· 1= 315,775 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 17,5 π΄
πΌπππ = 110 π΄
c) Check for thermal request in short circuit
πΌπππ = 1,56 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 24
1000 Β· β0,5= 5,57 ππ΄
2.8. Sub-panel SP-EMBA244
2.8.1. Power demand
-Total installed power:
BCR01 95.000 W
TIER01 4.000 W
CCM01 5.500 W
PALLMAC 7.374 W
GH01 736 W
CHAIN01 552 W
CHAIN02 552 W
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DIS01 736 W
ROLL01 552 W
ROLL02 552 W
FEEDER 18.000 W
2.8.2. Calculation line: BCR01
Service Voltage: 400 V.
Canalization: F-Unip. O Mult. Suporters.
Longitude: 20 m; Cos π: 0,9; Xu: 0 mΞ©/m;R:1;
Power to install: 95.000 W.
Calculation power (according to ITC BT-44 and ITC BT-47):
π = 5.000 Β· 1,25 + 90.000 = 96.250 π
πΌ =96.250
0,9 Β· 400 Β· β3= 154,37π΄
We try unipolar conductors 4x95+TTx50mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 271A.
Tension fall:
Cable temperature: 56,22ΒΊC
π(ππππ‘πππ) =20Β·96.250
48,65Β·400Β·95= 1,04π = 0,26%
π(π‘ππ‘ππ)=1,37% maximum admissible 6,5%
Thermic protection:
Four pole automatic switch In: 250 A. Thermic regulation Ireg= 200 A.
Differential protection:
Relay and differential transformer sensitivity: 300mA. AC class.
2.8.3. Calculation line: EMBA244-1
Service Voltage: 400 V.
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Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 9.500 W.
Simultaneity factor: 0,6.
Calculation power (according to ITC BT-47):
π = 5.500 Β· 1,25 + 200 = 7.075 π
πΌ =7.075
0,8 Β· 400 Β· β3= 12,77 π΄
We try unipolar conductors 4x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 36A.
Tension fall:
Cable temperature: 43,77ΒΊC
π(ππππ‘πππ) =0,3Β·7.075
50,82Β·400Β·6= 0,02 π = 0%
π(π‘ππ‘ππ)=1,11% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.8.4. Calculation line: TIER01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 4.000 W.
Calculation power (according to ITC BT-47):
π = 4.000 Β· 1,25 = 5.000 π
πΌ =5.000
0,85 Β· 400 Β· β3 Β· 1= 8,49 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
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Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 46,32ΒΊC
π(ππππ‘πππ) =15Β·5.000
50,36Β·400Β·2,5= 1,49 π = 0,37%
π(π‘ππ‘ππ)=1,48% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.8.5. Calculation line: CCM01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 5.500 W.
Calculation power (according to ITC BT-47):
π = 5.500 Β· 1,25 = 6.875 π
πΌ =6.875
0,85 Β· 400 Β· β3 Β· 1= 11,67 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 51,95ΒΊC
π(ππππ‘πππ) =18Β·6.875
49,37Β·400Β·2,5= 2,51 π = 0,63%
π(π‘ππ‘ππ)=1,74% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
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2.8.6. Calculation line: PALLMAC
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 18 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 7.374 W.
Calculation power (according to ITC BT-47):
π = 4.416 Β· 1,25 + 2.958 = 8.478 π
πΌ =8.478
0,85 Β· 400 Β· β3 Β· 1= 14,4 π΄
We try unipolar conductors 4x16+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 59A.
Outer tube diameter: 40 mm.
Tension fall:
Cable temperature: 41,79ΒΊC
π(ππππ‘πππ) =18Β·8.478
51,18Β·400Β·16= 0,47 π = 0,12%
π(π‘ππ‘ππ)=1,22% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=50 A.
Differential protection:
Four pole differential switch I=63 A. Sens. I=30 mA. AC class.
2.8.7. Calculation line: EMBA244-2
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.840 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-47):
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π = 736 Β· 1,25 + 1.104 = 2.024 π
πΌ =2.024
0,8 Β· 400 Β· β3= 3,65 π΄
We try unipolar conductors 4x10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 50A.
Tension fall:
Cable temperature: 40,16ΒΊC
π(ππππ‘πππ) =0,3Β·2.024
51,49Β·400Β·10= 0 π = 0%
π(π‘ππ‘ππ)=1,11% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=63 A. Sens. I=30 mA. AC class.
2.8.8. Calculation line: GH01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 12 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 736 W.
Calculation power (according to ITC BT-47):
π = 736 Β· 1,25 = 920 π
πΌ =920
0,85 Β· 400 Β· β3 Β· 1= 1,56 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,21ΒΊC
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π(ππππ‘πππ) =12Β·920
51,48Β·400Β·2,5= 0,21 π = 0,05%
π(π‘ππ‘ππ)=1,16% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.8.9. Calculation line: CHAIN01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 552 W.
Calculation power (according to ITC BT-47):
π = 552 Β· 1,25 = 690 π
πΌ =690
0,85 Β· 400 Β· β3 Β· 1= 1,17 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,12ΒΊC
π(ππππ‘πππ) =15Β·690
51,49Β·400Β·2,5= 0,2 π = 0,05%
π(π‘ππ‘ππ)=1,16% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.8.10. Calculation line: CHAIN02
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 18 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 552 W.
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Calculation power (according to ITC BT-47):
π = 552 Β· 1,25 = 690 π
πΌ =690
0,85 Β· 400 Β· β3 Β· 1= 1,17 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,12ΒΊC
π(ππππ‘πππ) =18Β·690
51,49Β·400Β·2,5= 0,24 π = 0,06%
π(π‘ππ‘ππ)=1,17% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.8.11. Calculation line: EMBA244-3
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.840 W.
Simultaneity factor: 0,8.
Calculation power (according to ITC BT-47):
π = 736 Β· 1,25 + 736 = 1.656 π
πΌ =1.656
0,8 Β· 400 Β· β3= 2,99 π΄
We try unipolar conductors 4x10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 50A.
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Tension fall:
Cable temperature: 40,11ΒΊC
π(ππππ‘πππ) =0,3Β·1.656
51,5Β·400Β·10= 0 π = 0%
π(π‘ππ‘ππ)=1,11% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=63 A. Sens. I=30 mA. AC class.
2.8.12. Calculation line: DIS01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 18 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 736 W.
Calculation power (according to ITC BT-47):
π = 736 Β· 1,25 = 920 π
πΌ =920
0,85 Β· 400 Β· β3 Β· 1= 1,56 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,21ΒΊC
π(ππππ‘πππ) =18Β·920
51,48Β·400Β·2,5= 0,32 π = 0,08%
π(π‘ππ‘ππ)=1,19% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.8.13. Calculation line: ROLL01
Service Voltage: 400 V.
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Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 18 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 552 W.
Calculation power (according to ITC BT-47):
π = 552 Β· 1,25 = 690 π
πΌ =690
0,85 Β· 400 Β· β3 Β· 1= 1,17 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,12ΒΊC
π(ππππ‘πππ) =18Β·690
51,49Β·400Β·2,5= 0,24 π = 0,06%
π(π‘ππ‘ππ)=1,17% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.8.14. Calculation line: ROLL02
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 18 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 552 W.
Calculation power (according to ITC BT-47):
π = 552 Β· 1,25 = 690 π
πΌ =690
0,85 Β· 400 Β· β3 Β· 1= 1,17 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
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Tension fall:
Cable temperature: 40,12ΒΊC
π(ππππ‘πππ) =18Β·690
51,49Β·400Β·2,5= 0,24 π = 0,06%
π(π‘ππ‘ππ)=1,17% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.8.15. Calculation line: FEEDER
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 19 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 18.000 W.
Calculation power (according to ITC BT-47):
π = 5.000 Β· 1,25 + 13.000 = 19.250 π
πΌ =19.250
0,85 Β· 400 Β· β3 Β· 1= 32,69 π΄
We try unipolar conductors 4x10+TTx10mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 44A.
Outer tube diameter: 32 mm.
Tension fall:
Cable temperature: 56,56ΒΊC
π(ππππ‘πππ) =19Β·19.250
48,59Β·400Β·10= 1,88 π = 0,47%
π(π‘ππ‘ππ)=1,58% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=40 A.
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class
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2.8.16. Bus Bar calculations: SP-EMBA244
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 100 mm2.
Amplitude: 20 mm.
Thickness: 5 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,333 ; 0,333 ; 0,083; 0,0208.
I. admissible of the bus bar: 290 A.
a) Electrodynamic calculation
ππππ₯ =9,75
2 Β· 252
60 Β· 10 Β· 0,083 Β· 1= 1.192,009 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 147,06 π΄
πΌπππ = 290 π΄
c) Check for thermal request in short circuit
πΌπππ = 9,75 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 100
1000 Β· β0,5= 23,19 ππ΄
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2.9. Sub-panel SP-EMA170
2.9.1. Power demand
-Total installed power:
BCR01 105.000 W
ELEVATOR 1.500 W
TIER01 4.000 W
ROBOT 25.000 W
HYDELEVATOR01 750 W
ROLL01 2.250 W
HYDELEVATOR02 1.500 W
FEEDER 18.000 W
ROLL02 2.250 W
ROLL03 2.250 W
ROLL04 2.250 W
2.9.2. Calculation line: BCR01
Service Voltage: 400 V.
Canalization: F-Unip. O Mult. Suporters.
Longitude: 20 m; Cos π: 0,85; Xu: 0 mΞ©/m;R:1;
Power to install: 105.000 W.
Simultaneity factor: 0,6
Calculation power (according to ITC BT-47):
π = 5.000 Β· 1,25 + 100.000 = 106.250 π
πΌ =106.250
0,85 Β· 400 Β· β3= 180,43 π΄
We try unipolar conductors 4x95+TTx50mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
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According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 271A.
Tension fall:
Cable temperature: 62,16ΒΊC
π(ππππ‘πππ) =20Β·106.250
47,68Β·400Β·95= 1,17π = 0,29%
π(π‘ππ‘ππ)=1,56% maximum admissible 6,5%
Thermic protection:
Four pole automatic switch In: 250 A. Thermic regulation Ireg= 226 A.
Differential protection:
Relay and differential transformer sensitivity: 300mA. AC class [s].
2.9.3. Calculation line: EMBA170 1
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 5.500 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-47):
π = 4.000 Β· 1,25 + 1.500 = 6.500 π
πΌ =6.500
0,8 Β· 400 Β· β3= 11,73 π΄
We try unipolar conductors 4x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 36A.
Tension fall:
Cable temperature: 43,18ΒΊC
π(ππππ‘πππ) =0,3Β·6.500
50,93Β·400Β·6= 0,02 π = 0%
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π(π‘ππ‘ππ)=1,27% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.9.4. Calculation line: ELEVATOR
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 25 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 1.500 W.
Calculation power (according to ITC BT-47):
π = 1.500 Β· 1,25 = 1.875 π
πΌ =1.875
0,85 Β· 400 Β· β3 Β· 1= 3,18 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,89ΒΊC
π(ππππ‘πππ) =25Β·1.875
51,53Β·400Β·2,5= 0,91 π = 0,23%
π(π‘ππ‘ππ)=1,5% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.9.5. Calculation line: TIER01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 30 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 4.000 W.
Calculation power (according to ITC BT-47):
π = 4.000 Β· 1,25 = 5.000 π
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πΌ =5.000
0,85 Β· 400 Β· β3 Β· 1= 8,49 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 46,32ΒΊC
π(ππππ‘πππ) =30Β·5.000
50,36Β·400Β·2,5= 2,98 π = 0,74%
π(π‘ππ‘ππ)=2,02% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.9.6. Calculation line: ROBOT
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 18 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 25.000 W.
Calculation power (according to ITC BT-47):
π = 5.000 Β· 1,25 + 20.000 = 26.250 π
πΌ =26.250
0,85 Β· 400 Β· β3 Β· 1= 44,58 π΄
We try unipolar conductors 4x16+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 59A.
Outer tube diameter: 40 mm.
Tension fall:
Cable temperature: 57,12ΒΊC
π(ππππ‘πππ) =18Β·26.250
48,5Β·400Β·16= 1,52 π = 0,38%
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π(π‘ππ‘ππ)=1,65% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=50 A.
Differential protection:
Four pole differential switch I=63 A. Sens. I=30 mA. AC class.
2.9.7. Calculation line: EMBA170 2
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 4.500 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-47):
π = 2.250 Β· 1,25 + 2.250 = 5.062,5 π
πΌ =5.062,5
0,8 Β· 400 Β· β3= 9,13 π΄
We try unipolar conductors 4x10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 50A.
Tension fall:
Cable temperature: 41ΒΊC
π(ππππ‘πππ) =0,3Β·5.062,5
51,33Β·400Β·10= 0,01 π = 0%
π(π‘ππ‘ππ)=1,27% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=63 A. Sens. I=30 mA. AC class.
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2.9.8. Calculation line: HYDELEVATOR01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 12 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 750 W.
Calculation power (according to ITC BT-47):
π = 750 Β· 1,25 = 937 π
πΌ =937
0,85 Β· 400 Β· β3 Β· 1= 1,59 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,22ΒΊC
π(ππππ‘πππ) =12Β·937
51,48Β·400Β·2,5= 0,22 π = 0,05%
π(π‘ππ‘ππ)=1,33% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.9.9. Calculation line: ROLL01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 2.250 W.
Calculation power (according to ITC BT-47):
π = 2.250 Β· 1,25 = 2.812,5 π
πΌ =2.812,5
0,85 Β· 400 Β· β3 Β· 1= 4,78 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
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According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42ΒΊC
π(ππππ‘πππ) =15Β·2.812,5
51,14Β·400Β·2,5= 0,82 π = 0,21%
π(π‘ππ‘ππ)=1,48% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.9.10. Calculation line: HYDELEVATOR02
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 18 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 1.500 W.
Calculation power (according to ITC BT-47):
π = 1.500 Β· 1,25 = 1.875 π
πΌ =1.875
0,85 Β· 400 Β· β3 Β· 1= 3,18 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,89ΒΊC
π(ππππ‘πππ) =18Β·1.875
51,35Β·400Β·2,5= 0,66 π = 0,16%
π(π‘ππ‘ππ)=1,44% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
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2.9.11. Calculation line: FEEDER
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 19 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 18.000 W.
Calculation power (according to ITC BT-47):
π = 5.000 Β· 1,25 + 13.000 = 19.250 π
πΌ =19.250
0,85 Β· 400 Β· β3 Β· 1= 32,69 π΄
We try unipolar conductors 4x10+TTx10mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 44A.
Outer tube diameter: 32 mm.
Tension fall:
Cable temperature: 56,56ΒΊC
π(ππππ‘πππ) =19Β·19.250
48,59Β·400Β·10= 1,88 π = 0,47%
π(π‘ππ‘ππ)=1,74% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=40 A.
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class
2.9.12. Calculation line: EMBA170 3
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 6.750 W.
Simultaneity factor: 0,8.
Calculation power (according to ITC BT-47):
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π = 2.250 Β· 1,25 + 3.150 = 5.962,5 π
πΌ =5.962,5
0,8 Β· 400 Β· β3= 10,76 π΄
We try unipolar conductors 4x10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 50A.
Tension fall:
Cable temperature: 41,39ΒΊC
π(ππππ‘πππ) =0,3Β·5.962,5
51,33Β·400Β·10= 0,01 π = 0%
π(π‘ππ‘ππ)=1,27% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=63 A. Sens. I=30 mA. AC class.
2.9.13. Calculation line: ROLL02
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 20 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 2.250 W.
Calculation power (according to ITC BT-47):
π = 2.250 Β· 1,25 = 2.812,5 π
πΌ =2.812,5
0,85 Β· 400 Β· β3 Β· 1= 4,78 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42ΒΊC
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π(ππππ‘πππ) =20Β·2.812,5
51,14Β·400Β·2,5= 1,1 π = 0,27%
π(π‘ππ‘ππ)=1,55% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.9.14. Calculation line: ROLL03
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 20 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 2.250 W.
Calculation power (according to ITC BT-47):
π = 2.250 Β· 1,25 = 2.812,5 π
πΌ =2.812,5
0,85 Β· 400 Β· β3 Β· 1= 4,78 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42ΒΊC
π(ππππ‘πππ) =20Β·2.812,5
51,14Β·400Β·2,5= 1,1 π = 0,27%
π(π‘ππ‘ππ)=1,55% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.9.15. Calculation line: ROLL04
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 20 m; Cos π: 0,85; Xu: 0 mΞ©/m; R: 1;
Power to install: 2.250 W.
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Calculation power (according to ITC BT-47):
π = 2.250 Β· 1,25 = 2.812,5 π
πΌ =2.812,5
0,85 Β· 400 Β· β3 Β· 1= 4,78 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42ΒΊC
π(ππππ‘πππ) =20Β·2.812,5
51,14Β·400Β·2,5= 1,1 π = 0,27%
π(π‘ππ‘ππ)=1,55% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.9.16. Bus Bar calculations: SP-EMBA170
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 100 mm2.
Amplitude: 20 mm.
Thickness: 5 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,333 ; 0,333 ; 0,083; 0,0208.
I. admissible of the bus bar: 290 A.
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a) Electrodynamic calculation
ππππ₯ =9,52
2 Β· 252
60 Β· 10 Β· 0,083 Β· 1= 1.138,346 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 180,61 π΄
πΌπππ = 290 π΄
c) Check for thermal request in short circuit
πΌπππ = 9,52 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 100
1000 Β· β0,5= 23,19 ππ΄
2.10. Sub-panel SP-PROD1
2.10.1. Power demand
-Total installed power:
STR01 9.400 W
STR02 9.400 W
BALER01 5.250 W
BALER02 5.250 W
SEM01 500 W
BIMA01 5.250 W
PAMA01 2.944 W
EBR01 1.200 W
ROLL01 5.150 W
ROLL02 5.150 W
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ROLL03 5.150 W
TRIFASIC PLUGS 2.500 W
2.10.2. Calculation line: STR01
Service Voltage: 400 V.
Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 9.400 W.
Calculation power (according to ITC BT-47):
π = 9.400 Β· 1,25 = 11.750 π
πΌ =11.750
0,8 Β· 400 Β· β3 Β· 1= 21,2 π΄
We try four pole conductors 4x6+TTx6mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 37 A.
Outer tube diameter: 25 mm.
Tension fall:
Cable temperature: 56,42ΒΊC
π(ππππ‘πππ) =15Β·11.750
48,62Β·400Β·6= 1,51 π = 0,38%
π(π‘ππ‘ππ)=1,56% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=25 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.10.3. Calculation line: STR02
Service Voltage: 400 V.
Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 9.400 W.
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Calculation power (according to ITC BT-47):
π = 9.400 Β· 1,25 = 11.750 π
πΌ =11.750
0,8 Β· 400 Β· β3 Β· 1= 21,2 π΄
We try four pole conductors 4x6+TTx6mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 37 A.
Outer tube diameter: 25 mm.
Tension fall:
Cable temperature: 56,42ΒΊC
π(ππππ‘πππ) =20Β·11.750
48,62Β·400Β·6= 2,01 π = 0,5%
π(π‘ππ‘ππ)=1,68% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=25 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.10.4. Calculation line: BALER01
Service Voltage: 400 V.
Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 30 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 5.250 W.
Calculation power (according to ITC BT-47):
π = 5.250 Β· 1,25 = 6.562,5 π
πΌ =6.562,5
0,8 Β· 400 Β· β3 Β· 1= 11,84 π΄
We try four pole conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 22 A.
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Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 54,48ΒΊC
π(ππππ‘πππ) =30Β·6.562,5
48,94Β·400Β·2,5= 4,02 π = 1,01%
π(π‘ππ‘ππ)=2,18% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.10.5. Calculation line: BALER02
Service Voltage: 400 V.
Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 5.250 W.
Calculation power (according to ITC BT-47):
π = 5.250 Β· 1,25 = 6.562,5 π
πΌ =6.562,5
0,8 Β· 400 Β· β3 Β· 1= 11,84 π΄
We try four pole conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 22 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 54,48ΒΊC
π(ππππ‘πππ) =25Β·6.562,5
48,94Β·400Β·2,5= 3,35 π = 0,84%
π(π‘ππ‘ππ)=2,02% maximum admissible 6,5%
Thermic protection:
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Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.10.6. Calculation line: SEM01
Service Voltage: 400 V.
Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 30 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 500 W.
Calculation power (according to ITC BT-47):
π = 500 Β· 1,25 = 625 π
πΌ =625
0,8 Β· 400 Β· β3 Β· 1= 1,13 π΄
We try four pole conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 22 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,13ΒΊC
π(ππππ‘πππ) =30Β·625
51,49Β·400Β·2,5= 0,36 π = 0,09%
π(π‘ππ‘ππ)=1,27% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.10.7. Calculation line: BIMA01
Service Voltage: 400 V.
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Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 40 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 5.250 W.
Calculation power (according to ITC BT-47):
π = 5.250 Β· 1,25 = 6.562,5 π
πΌ =6.562,5
0,8 Β· 400 Β· β3 Β· 1= 11,84 π΄
We try four pole conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 22 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 54,48ΒΊC
π(ππππ‘πππ) =40Β·6.562,5
48,94Β·400Β·2,5= 5,36 π = 1,34%
π(π‘ππ‘ππ)=2,52% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.10.8. Calculation line: PAMA01
Service Voltage: 400 V.
Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 30 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 2.944 W.
Calculation power (according to ITC BT-47):
π = 2.944 Β· 1,25 = 3.680 π
πΌ =3.680
0,8 Β· 400 Β· β3 Β· 1= 6,64 π΄
We try four pole conductors 4x2,5+TTx2,5mm2 Cu
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Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 22 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,55ΒΊC
π(ππππ‘πππ) =30Β·3.680
50,68Β·400Β·2,5= 2,18 π = 0,54%
π(π‘ππ‘ππ)=1,72% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.10.9. Calculation line: EBR01
Service Voltage: 400 V.
Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 1.200 W.
Calculation power (according to ITC BT-47):
π = 600 Β· 1,25 + 600 = 1.350 π
πΌ =1.350
0,8 Β· 400 Β· β3 Β· 1= 2,44 π΄
We try four pole conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 22 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,61ΒΊC
π(ππππ‘πππ) =25Β·1.350
51,4Β·400Β·2,5= 0,66 π = 0,16%
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π(π‘ππ‘ππ)=1,34% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.10.10. Calculation line: ROLL01
Service Voltage: 400 V.
Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 5.150 W.
Calculation power (according to ITC BT-47):
π = 1.100 Β· 1,25 + 4.050 = 5.425 π
πΌ =5.425
0,8 Β· 400 Β· β3 Β· 1= 9,79 π΄
We try four pole conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 22 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 49,9ΒΊC
π(ππππ‘πππ) =15Β·5.425
49,73Β·400Β·2,5= 1,64 π = 0,41%
π(π‘ππ‘ππ)=1,59% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
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2.10.11. Calculation line: ROLL02
Service Voltage: 400 V.
Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 5.150 W.
Calculation power (according to ITC BT-47):
π = 1.100 Β· 1,25 + 4.050 = 5.425 π
πΌ =5.425
0,8 Β· 400 Β· β3 Β· 1= 9,79 π΄
We try four pole conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 22 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 49,9ΒΊC
π(ππππ‘πππ) =15Β·5.425
49,73Β·400Β·2,5= 1,64 π = 0,41%
π(π‘ππ‘ππ)=1,59% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.10.12. Calculation line: ROLL03
Service Voltage: 400 V.
Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 5.150 W.
Calculation power (according to ITC BT-47):
π = 1.100 Β· 1,25 + 4.050 = 5.425 π
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πΌ =5.425
0,8 Β· 400 Β· β3 Β· 1= 9,79 π΄
We try four pole conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 22 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 49,9ΒΊC
π(ππππ‘πππ) =15Β·5.425
49,73Β·400Β·2,5= 1,64 π = 0,41%
π(π‘ππ‘ππ)=1,59% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.10.13. Calculation line: TRIFASIC PLUGS
Service Voltage: 400 V.
Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 30 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 2.500 W.
Calculation power: π = 2.500 π
πΌ =2.500
0,8 Β· 400 Β· β3 Β· 1= 4,51 π΄
We try four pole conductors 4x10+TTx10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 52 A.
Outer tube diameter: 32 mm.
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Tension fall:
Cable temperature: 40,38ΒΊC
π(ππππ‘πππ) =30Β·2.500
51,45Β·400Β·10= 0,36 π = 0,09%
π(π‘ππ‘ππ)=1,27% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=40 A.
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.10.14. Bus Bar calculations: SP-PROD1
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 45 mm2.
Amplitude: 15 mm.
Thickness: 3 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,112 ; 0,084 ; 0,022; 0,003.
I. admissible of the bus bar: 170 A.
a) Electrodynamic calculation
ππππ₯ =4,17
2 Β· 252
60 Β· 10 Β· 0,022 Β· 1= 822,315 β€ 1.200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
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πΌπππ = 55,79 π΄
πΌπππ = 170 π΄
c) Check for thermal request in short circuit
πΌπππ = 4,17 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 45
1000 Β· β0,5= 10,44 ππ΄
2.11. Sub-panel SP-WORKSHOP
2.11.1. Power demand
-Total installed power:
LT01 1.104 W
PLUGS 650 W
EMERGENCY 50 W
SERVICEBOX01 3.000 W
SERVICEBOX02 3.000 W
SERVICEBOX03 3.000 W
AER01 160 W
2.11.2. Calculation line: LT1
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.804 W.
Simultaneity factor: 0,5.
Calculation power (according to ITC BT-44):
π = 1.210 π
πΌ =1.210
230 Β· 0,8= 6,58π΄
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We try unipolar conductors 2x4mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 31 A.
Tension fall:
Cable temperature: 41,35ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·1.210
51,27Β·230Β·4= 0,02π = 0,01%
π(π‘ππ‘ππ)=0,84% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.11.3. Calculation line: LT01
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or built-in.
Longitude: 20 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 1.104 W.
Calculation power (according to ITC BT-44):
π = 720 Β· 1,8 + 384 = 1.680 π
πΌ =1.680
230 Β· 1= 7,3 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 47,11ΒΊC
π(ππππ‘πππ) =2Β·20Β·1.680
50,22Β·230Β·1,5= 3,88π = 1,69%
π(π‘ππ‘ππ)=2,52% maximum admissible 4,5%
Thermic protection:
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Two pole magnetothermic switch I=10 A.
2.11.4. Calculation line: PLUGS
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 650 W.
Calculation power: 650 W
πΌ =650
0,8 Β· 230= 3,53 π΄
We try unipolar conductors 2x1,5+TTX1,5mm2 Cu
Level of insulation: 450/700 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 41,66ΒΊC
π(ππππ‘πππ) =2Β·20Β·650
51,21Β·230Β·1,5= 1,47 π = 0,64%
π(π‘ππ‘ππ)=1,48% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.11.5. Calculation line: EMERGENCY
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 20 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 50 W.
Calculation power (according to ITC BT-44):
π = 50 Β· 1,8 = 90 π
πΌ =90
230= 0,39 π΄
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We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,02ΒΊC
π(ππππ‘πππ) =2Β·20Β·90
51,51Β·230Β·1,5= 0,2π = 0,09%
π(π‘ππ‘ππ)=0,92% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.11.6. Calculation line: SERVICEBOX01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 3.000 W.
Calculation power: 3.000 W
πΌ =3.000
0,8 Β· 400 Β· β3= 5,41 π΄
We try unipolar conductors 4x10+TTx10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 44A.
Outer tube diameter: 32 mm.
Tension fall:
Cable temperature: 40,45ΒΊC
π(ππππ‘πππ) =15Β·3.000
51,43Β·400Β·10= 0,22 π = 0,05%
π(π‘ππ‘ππ)=0,88% maximum admissible 6,5%
Thermic protection:
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Four pole magnetothermic switch I=40 A.
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.11.7. Calculation line: SERVICEBOX02
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 3.000 W.
Calculation power: 3.000 W
πΌ =3.000
0,8 Β· 400 Β· β3= 5,41 π΄
We try unipolar conductors 4x10+TTx10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 44A.
Outer tube diameter: 32 mm.
Tension fall:
Cable temperature: 40,45ΒΊC
π(ππππ‘πππ) =20Β·3.000
51,43Β·400Β·10= 0,29 π = 0,07%
π(π‘ππ‘ππ)=0,9% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=40 A.
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.11.8. Calculation line: SERVICE BOXES
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
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Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 3.000 W.
Calculation power: 3.000 W
πΌ =3.000
0,8 Β· 400 Β· β3= 5,41 π΄
We try unipolar conductors 4x10+TTx10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 44A.
Outer tube diameter: 32 mm.
Tension fall:
Cable temperature: 40,45ΒΊC
π(ππππ‘πππ) =25Β·3.000
51,43Β·400Β·10= 0,36 π = 0,09%
π(π‘ππ‘ππ)=0,92% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=40 A.
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.11.9. Calculation line: AER01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;R:1;
Power to install: 160 W.
Calculation power (According to ITC BT-47):
π = 80 Β· 1,25 + 80 = 180 W
πΌ =180
0,8 Β· 400 Β· β3= 0,32 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
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Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,01ΒΊC
π(ππππ‘πππ) =15Β·180
51,51Β·400Β·2,5= 0,05 π = 0,01%
π(π‘ππ‘ππ)=0,84% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=6 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.11.10. Bus Bar calculations: SP-WORKSHOP
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 24 mm2.
Amplitude: 12 mm.
Thickness: 2 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,048 ; 0,0288 ; 0,008; 0,0008.
I. admissible of the bus bar: 110 A.
a) Electrodynamic calculation
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ππππ₯ =1,73
2 Β· 252
60 Β· 10 Β· 0,008 Β· 1= 390,452 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 9,87 π΄
πΌπππ = 110 π΄
c) Check for thermal request in short circuit
πΌπππ = 1,73 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 24
1000 Β· β0,5= 5,57 ππ΄
2.12. Sub-panel SP-PROD2
2.12.1. Power demand
-Total installed power:
DC01 2.944 W
DC02 22.080 W
ST01 1.472 W
SHEAR01 2.208 W
SM01 2.208 W
CR01 10.000 W
CR02 10.000 W
PLUGS 2.500 W
DOOR01 1.500 W
DOOR02 1.880 W
DOOR03 600 W
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2.12.2. Calculation line: DC01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m;R:1;
Power to install: 2.944 W.
Calculation power (According to ITC BT-47):
π = 2.944 Β· 1,25 = 3.680 W
πΌ =3.680
0,8 Β· 400 Β· β3= 6,64 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 43,68ΒΊC
π(ππππ‘πππ) =25Β·3.680
50,8Β·400Β·2,5= 1,81 π = 0,45%
π(π‘ππ‘ππ)=1,71% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.12.3. Calculation line: DC02
Service Voltage: 400 V.
Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 50 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 22.080 W.
Calculation power (according to ITC BT-47):
π = 22.080 Β· 1,25 = 27.600 π
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πΌ =27.600
0,8 Β· 400 Β· β3 Β· 1= 49,8 π΄
We try four pole conductors 4x25+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 88A.
Outer tube diameter: 50 mm.
Tension fall:
Cable temperature: 56,01ΒΊC
π(ππππ‘πππ) =50Β·27.600
48,68Β·400Β·25= 2,83 π = 0,71%
π(π‘ππ‘ππ)=1,96% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=50 A.
Differential protection:
Four pole differential switch I=63 A. Sens. I=30 mA. AC class.
2.12.4. Calculation line: ST01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 35 m; Cos π: 0,8; Xu: 0 mΞ©/m;R:1;
Power to install: 1.472 W.
Calculation power (According to ITC BT-47):
π = 1.472 Β· 1,25 = 1.840 W
πΌ =1.840
0,8 Β· 400 Β· β3= 3,32 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
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Tension fall:
Cable temperature: 40,97ΒΊC
π(ππππ‘πππ) =35Β·1.840
51,34Β·400Β·2,5= 1,25 π = 0,31%
π(π‘ππ‘ππ)=1,57% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.12.5. Calculation line: SHEAR01
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or built-in.
Longitude: 30 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.208 W.
Calculation power (according to ITC BT-47):
π = 2.208 Β· 1,25 = 2.760 π
πΌ =2.760
230 Β· 0,8= 15 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 55,31ΒΊC
π(ππππ‘πππ) =2Β·30Β·2.760
48,8Β·230Β·2,5= 5,9 π = 2,57%
π(π‘ππ‘ππ)=3,82% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
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Differential protection:
Four pole differential switch I=25 A. Sens. I=300 mA. AC class.
2.12.6. Calculation line: SM01
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or built-in.
Longitude: 30 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.208 W.
Calculation power (according to ITC BT-47):
π = 736 Β· 1,25 + 1.472 = 2.392 π
πΌ =2.392
230 Β· 0,8= 13 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 51,5ΒΊC
π(ππππ‘πππ) =2Β·30Β·2.392
49,45Β·230Β·2,5= 5,05 π = 2,19%
π(π‘ππ‘ππ)=3,45% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=300 mA. AC class.
2.12.7. Calculation line: CR01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 35 m; Cos π: 0,8; Xu: 0 mΞ©/m;R:1;
Power to install: 10.000 W.
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Calculation power (According to ITC BT-47):
π = 10.000 Β· 1,25 = 12.500 W
πΌ =12.500
0,8 Β· 400 Β· β3= 22,55 π΄
We try unipolar conductors 4x6+TTx6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 32A.
Outer tube diameter: 25 mm.
Tension fall:
Cable temperature: 54,9ΒΊC
π(ππππ‘πππ) =35Β·12.500
48,87Β·400Β·6= 3,73 π = 0,93%
π(π‘ππ‘ππ)=2,19% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=32 A.
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.12.8. Calculation line: CR02
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m;R:1;
Power to install: 10.000 W.
Calculation power (According to ITC BT-47):
π = 10.000 Β· 1,25 = 12.500 W
πΌ =12.500
0,8 Β· 400 Β· β3= 22,55 π΄
We try unipolar conductors 4x6+TTx6mm2 Cu
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Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 32A.
Outer tube diameter: 25 mm.
Tension fall:
Cable temperature: 54,9ΒΊC
π(ππππ‘πππ) =25Β·12.500
48,87Β·400Β·6= 2,66 π = 0,67%
π(π‘ππ‘ππ)=1,92% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=32 A.
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.12.9. Calculation line: PLUGS
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.500 W.
Calculation power: 2.500 W
πΌ =2.500
0,8 Β· 230= 13,59 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 450/700 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 52,56ΒΊC
π(ππππ‘πππ) =2Β·25Β·2.500
49,27Β·230Β·2,5= 4,41 π = 1,92%
π(π‘ππ‘ππ)=3,17% maximum admissible 6,5%
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Thermic protection:
Two pole magnetothermic switch I=16 A
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.12.10. Calculation line: PROD2-1
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 3.380 W.
Simultaneity factor: 1
Calculation power (according to ITC BT-47):
π = 1.880 Β· 1,25 + 1.500 = 3.850 π
πΌ =3.850
0,8 Β· 400 Β· β3= 6,95 π΄
We try unipolar conductors 4x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 36A.
Tension fall:
Cable temperature: 41,12ΒΊC
π(ππππ‘πππ) =0,3Β·3.850
51,31Β·400Β·6= 0,01 π = 0%
π(π‘ππ‘ππ)=1,26% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.12.11. Calculation line: DOOR01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 46 m; Cos π: 0,8; Xu: 0 mΞ©/m;R:1;
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Power to install: 1.500 W.
Calculation power (According to ITC BT-47):
π = 1.500 Β· 1,25 = 1.875 W
πΌ =1.875
0,8 Β· 400 Β· β3= 3,38 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41ΒΊC
π(ππππ‘πππ) =46Β·1.875
51,33Β·400Β·2,5= 1,68 π = 0,42%
π(π‘ππ‘ππ)=1,68% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.12.12. Calculation line: DOOR02
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 60 m; Cos π: 0,8; Xu: 0 mΞ©/m;R:1;
Power to install: 1.880 W.
Calculation power (According to ITC BT-47):
π = 1.880 Β· 1,25 = 2.350 W
πΌ =2.350
0,8 Β· 400 Β· β3= 4,24 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
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Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41,58ΒΊC
π(ππππ‘πππ) =60Β·2.350
51,22Β·400Β·2,5= 2,75 π = 0,69%
π(π‘ππ‘ππ)=1,94% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.12.13. Calculation line: DOOR03
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 50 m; Cos π: 0,8; Xu: 0 mΞ©/m;R:1;
Power to install: 600 W.
Calculation power (According to ITC BT-47):
π = 600 Β· 1,25 = 750 W
πΌ =750
0,8 Β· 230= 4,08 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41,13ΒΊC
π(ππππ‘πππ) =2Β·50Β·750
51,31Β·230Β·2,5= 2,54 π = 1,11%
π(π‘ππ‘ππ)=2,36% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
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Differential protection:
Two pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.12.14. Bus Bar calculations: SP-PROD2
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 75 mm2.
Amplitude: 25 mm.
Thickness: 3 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,312 ; 0,39 ; 0,037; 0,005.
I. admissible of the bus bar: 270 A.
a) Electrodynamic calculation
ππππ₯ =5,9
2 Β· 252
60 Β· 10 Β· 0,037 Β· 1= 981,432 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 92,8 π΄
πΌπππ = 270 π΄
c) Check for thermal request in short circuit
πΌπππ = 5,9 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 75
1000 Β· β0,5= 17,39 ππ΄
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2.13. Sub-panel SP-BOBST
2.13.1. Power demand
-Total installed power:
DC01 33.500 W
PE01 736 W
ROLLER 5.500 W
PLUGS 450 W
LT01 750 W
2.13.2. Calculation line: DC01
Service Voltage: 400 V.
Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 33.500 W.
Calculation power (according to ITC BT-47):
π = 3.500 Β· 1,25 + 30.000 = 34.375 π
πΌ =34.375
0,8 Β· 400 Β· β3 Β· 1= 62,02 π΄
We try four pole conductors 4x25+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 88A.
Outer tube diameter: 50 mm.
Tension fall:
Cable temperature: 64,84ΒΊC
π(ππππ‘πππ) =20Β·34.375
47,25Β·400Β·25= 1,46 π = 0,36%
π(π‘ππ‘ππ)=1,64% maximum admissible 6,5%
Thermic protection:
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Four pole magnetothermic switch I=63 A.
Differential protection:
Four pole differential switch I=63 A. Sens. I=300 mA. AC class.
2.13.3. Calculation line: BOBST1
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 6.236 W.
Simultaneity factor: 1
Calculation power (according to ITC BT-47):
π = 5.500 Β· 1,25 + 736 = 7.611 π
πΌ =7.611
0,8 Β· 400 Β· β3= 13,73 π΄
We try unipolar conductors 4x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 36A.
Tension fall:
Cable temperature: 44,37ΒΊC
π(ππππ‘πππ) =0,3Β·7.611
50,71Β·400Β·6= 0,0 π = 0%
π(π‘ππ‘ππ)=1,28% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.13.4. Calculation line: PE01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 32 m; Cos π: 0,8; Xu: 0 mΞ©/m;R:1;
Power to install: 736 W.
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Calculation power (According to ITC BT-47):
π = 736 Β· 1,25 = 920 W
πΌ =920
0,8 Β· 400 Β· β3= 1,66 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,24ΒΊC
π(ππππ‘πππ) =32Β·920
51,47Β·400Β·2,5= 0,57 π = 0,14%
π(π‘ππ‘ππ)=1,43% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.13.5. Calculation line: ROLLER
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m;R:1;
Power to install: 5.500 W.
Calculation power (According to ITC BT-47):
π = 5.500 Β· 1,25 = 6.875 W
πΌ =6.875
0,8 Β· 400 Β· β3= 12,4 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
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Tension fall:
Cable temperature: 53,49ΒΊC
π(ππππ‘πππ) =25Β·6.875
49,11Β·400Β·2,5= 3,5 π = 0,87%
π(π‘ππ‘ππ)=2,16% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.13.6. Calculation line: PLUGS
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m;R:1;
Power to install: 450 W.
Calculation power: π = 450 W
πΌ =450
0,8 Β· 400 Β· β3= 0,81 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,06ΒΊC
π(ππππ‘πππ) =25Β·450
51,51Β·400Β·2,5= 0,22 π = 0,05%
π(π‘ππ‘ππ)=1,33% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class [s].
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2.13.7. Calculation line: LT01
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m;R:1;
Power to install: 750 W.
Calculation power (According to ITC BT-44):
π = 750 Β· 1,8 = 1.350 W
πΌ =1.350
230 Β· 1= 5,87 π΄
We try unipolar conductors 4x,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 44,59ΒΊC
π(ππππ‘πππ) =2Β·25Β·1.350
50,67Β·230Β·1,5= 3,86 π = 1,68%
π(π‘ππ‘ππ)=2,96% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
Differential protection:
Two pole differential switch I=25 A. Sens. I=30 mA. AC class [s].
2.13.8. Bus Bar calculations: SP-BOBST
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
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Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 45 mm2.
Amplitude: 15 mm.
Thickness: 3 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,112 ; 0,084 ; 0,022; 0,003.
I. admissible of the bus bar: 170 A.
a) Electrodynamic calculation
ππππ₯ =4,89
2 Β· 252
60 Β· 10 Β· 0,022 Β· 1= 1.132,055 β€ 950,944
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 77,42 π΄
πΌπππ = 170 π΄
c) Check for thermal request in short circuit
πΌπππ = 4,89 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 45
1000 Β· β0,5= 10,44 ππ΄
2.14. Sub-panel SP-TRANSFER
2.14.1. Power demand
-Total installed power:
ROLLER04 2.250 W
ROLLER05 2.250 W
TRA01 4.000 W
TRA02 750 W
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TRA03 750 W
TRA04 750 W
CAR01 5.500 W
CAR02 1.300 W
ROLLER01 2.250 W
ROLLER02 2.250 W
ROLLER03 3.000 W
2.14.2. Calculation line: TRANSFER0
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 4.500 W.
Simultaneity factor: 0,5.
Calculation power (according to ITC BT-47):
π = 1.700 Β· 1,25 + 550 = 2.675 π
πΌ =2.675
0,8 Β· 400 Β· β3= 4,83 π΄
We try unipolar conductors 4x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 36A.
Tension fall:
Cable temperature: 40,54ΒΊC
π(ππππ‘πππ) =0,3Β·2.675
51,42Β·400Β·6= 0,01 π = 0%
π(π‘ππ‘ππ)=0,85% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
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2.14.3. Calculation line: ROLLER04
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 35m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
Power to install: 2.250 W.
Calculation power (according to ITC BT-47):
π = 1.700π₯1,25 + 550 = 2.675 π
πΌ =2.675
400 Β· β3 Β· 0,8 Β· 1= 4,83π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,04ΒΊC
π(ππππ‘πππ) =35Β·2675
51,14Β·400Β·2,5Β·1= 1,83π = 0,46%
π(π‘ππ‘ππ)=1,31% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.14.4. Calculation line: ROLLER05
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 38m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
Power to install: 2.250 W.
Calculation power (according to ITC BT-47):
π = 1.700π₯1,25 + 550 = 2.675 π
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πΌ =2.675
400 Β· β3 Β· 0,8 Β· 1= 4,83π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,04ΒΊC
π(ππππ‘πππ) =38Β·2675
51,14Β·400Β·2,5Β·1= 1,99π = 0,5%
π(π‘ππ‘ππ)=1,35% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.14.5. Calculation line: TRANSFER1
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 5.500 W.
Simultaneity factor: 0,9.
Calculation power (according to ITC BT-47):
π = 4.000 Β· 1,25 + 950 = 5.950 π
πΌ =2.675
0,8 Β· 400 Β· β3= 10,74 π΄
We try unipolar conductors 4x10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 50A.
Tension fall:
Cable temperature: 41,38ΒΊC
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π(ππππ‘πππ) =0,3Β·5.950
51,26Β·400Β·10= 0,01 π = 0%
π(π‘ππ‘ππ)=0,85% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=63 A. Sens. I=30 mA. AC class.
2.14.6. Calculation line: TRA01
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 25m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
Power to install: 4.000 W.
Calculation power (according to ITC BT-47):
π = 4.000π₯1,25 = 5.000 π
πΌ =5.000
400 Β· β3 Β· 0,8 Β· 1= 9,02π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 47,13ΒΊC
π(ππππ‘πππ) =25Β·5.000
50,21Β·400Β·2,5Β·1= 2,49π = 0,62%
π(π‘ππ‘ππ)=1,48% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.14.7. Calculation line: TRA02
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 30m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
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Power to install: 750 W.
Calculation power (according to ITC BT-47):
π = 750π₯1,25 = 937,5 π
πΌ =937,5
400 Β· β3 Β· 0,8 Β· 1= 1,69π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,25ΒΊC
π(ππππ‘πππ) =30Β·937,5
51,47Β·400Β·2,5Β·1= 0,55 π = 0,14%
π(π‘ππ‘ππ)=0,99% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.14.8. Calculation line: TRA03
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 32m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
Power to install: 750 W.
Calculation power (according to ITC BT-47):
π = 750π₯1,25 = 937,5 π
πΌ =937,5
400 Β· β3 Β· 0,8 Β· 1= 1,69π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
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Tension fall:
Cable temperature: 40,25ΒΊC
π(ππππ‘πππ) =32Β·937,5
51,47Β·400Β·2,5Β·1= 0,58 π = 0,15%
π(π‘ππ‘ππ)=1% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.14.9. Calculation line: TRANSFER2
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 7.550 W.
Simultaneity factor: 0,8.
Calculation power (according to ITC BT-47):
π = 5.500 Β· 1,25 + 540 = 7.415 π
πΌ =7.415
0,8 Β· 400 Β· β3= 13,38 π΄
We try unipolar conductors 4x10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 50A.
Tension fall:
Cable temperature: 42,15ΒΊC
π(ππππ‘πππ) =0,3Β·7.415
51,12Β·400Β·10= 0,01 π = 0%
π(π‘ππ‘ππ)=0,86% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=63 A. Sens. I=30 mA. AC class.
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2.14.10. Calculation line: TRA04
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 35m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
Power to install: 750 W.
Calculation power (according to ITC BT-47):
π = 750π₯1,25 = 937,5 π
πΌ =937,5
400 Β· β3 Β· 0,8 Β· 1= 1,69π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,25ΒΊC
π(ππππ‘πππ) =35Β·937,5
51,47Β·400Β·2,5Β·1= 0,64 π = 0,16%
π(π‘ππ‘ππ)=1,01% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.14.11. Calculation line: CAR01
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 35m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
Power to install: 5.500 W.
Calculation power (according to ITC BT-47):
π = 5.500π₯1,25 = 6.875 π
πΌ =6.875
400 Β· β3 Β· 0,8 Β· 1= 12,4π΄
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We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 53,49ΒΊC
π(ππππ‘πππ) =35Β·6.875
49,11Β·400Β·2,5Β·1= 4,9π = 1,22%
π(π‘ππ‘ππ)= 2,08% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.14.12. Calculation line: CAR02
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 32m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
Power to install: 1.300 W.
Calculation power (according to ITC BT-47):
π = 750π₯1,25 + 550 = 1.487 π
πΌ =1.487
400 Β· β3 Β· 0,8 Β· 1= 2, π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,63ΒΊC
π(ππππ‘πππ) =32Β·1.487
51,4Β·400Β·2,5Β·1= 0,93 π = 0,23%
π(π‘ππ‘ππ)= 1,09% maximum admissible 6,5%
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Thermic protection:
Four pole magnetothermic switch I=16 A.
2.14.13. Calculation line: TRANSFER3
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 7.500 W.
Simultaneity factor: 0,5.
Calculation power (according to ITC BT-47):
π = 1.700 Β· 1,25 + 2.050 = 4.175 π
πΌ =4.175
0,8 Β· 400 Β· β3= 7,53 π΄
We try unipolar conductors 4x10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 50A.
Tension fall:
Cable temperature: 40,68ΒΊC
π(ππππ‘πππ) =0,3Β·4.175
51,39Β·400Β·10= 0,01 π = 0%
π(π‘ππ‘ππ)=0,85% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=63 A. Sens. I=30 mA. AC class.
2.14.14. Calculation line: ROLLER01
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 25m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
Power to install: 2.250 W.
Calculation power (according to ITC BT-47):
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π = 1.700π₯1,25 + 550 = 2.675 π
πΌ =2.675
400 Β· β3 Β· 0,8 Β· 1= 4,83π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,04ΒΊC
π(ππππ‘πππ) =25Β·2675
51,14Β·400Β·2,5Β·1= 1,31π = 0,33%
π(π‘ππ‘ππ)=1,18% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.14.15. Calculation line: ROLLER02
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 30m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
Power to install: 2.250 W.
Calculation power (according to ITC BT-47):
π = 1.700π₯1,25 + 550 = 2.675 π
πΌ =2.675
400 Β· β3 Β· 0,8 Β· 1= 4,83π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
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Cable temperature: 42,04ΒΊC
π(ππππ‘πππ) =30Β·2675
51,14Β·400Β·2,5Β·1= 1,57π = 0,39%
π(π‘ππ‘ππ)=1,25% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.14.16. Calculation line: ROLLER03
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 32m; Cos π: 0,8; Xu: 0 mΞ©/m; R=1;
Power to install: 3.000 W.
Calculation power (according to ITC BT-47):
π = 750π₯1,25 + 2.250 = 3.187,5π
πΌ =3.187,5
400 Β· β3 Β· 0,8 Β· 1= 5,75π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,9ΒΊC
π(ππππ‘πππ) =32Β·3.187,5
50,98Β·400Β·2,5Β·1= 2π = 0,5%
π(π‘ππ‘ππ)=1,35% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.14.17. Bus Bar calculations: SP-TRANSFER
Data
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Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 30 mm2.
Amplitude: 15 mm.
Thickness: 2 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,075 ; 0,0562 ; 0,01; 0,001.
I. admissible of the bus bar: 170 A.
a) Electrodynamic calculation
ππππ₯ =3,07
2 Β· 252
60 Β· 10 Β· 0,01 Β· 1= 982,166 β€ 950,944
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 20,56 π΄
πΌπππ = 140 π΄
c) Check for thermal request in short circuit
πΌπππ = 3,07 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 30
1000 Β· β0,5= 6,96 ππ΄
2.15. Sub-panel SP-EXT
2.15.1. Power demand
-Total installed power:
DOOR01 1.840 W
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DOOR02 1.060 W
BACKUP 1 W
2.15.2. Calculation line: DOOR01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 35 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 1.839 W.
Calculation power (according to ITC BT-47):
π = 1.839 Β· 1,25 = 2.295,75π
πΌ =2.295,75
0,8 Β· 400 Β· β3 Β· 1= 4,15 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41,51ΒΊC
π(ππππ‘πππ) =35Β·2.295,75
51,24Β·400Β·2,5= 1,57 π = 0,39%
π(π‘ππ‘ππ)=1,42% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.15.3. Calculation line: DOOR02
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 34 m; Cos π: 0,8; Xu: 0 mΞ©/m;R:1;
Power to install:1.060 W.
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Calculation power (According to ITC BT-47):
π = 1.060 Β· 1,25 = 1.325 W
πΌ =1.325
0,8 Β· 230= 7,2 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 43,53ΒΊC
π(ππππ‘πππ) =2Β·34Β·1.325
50,86Β·230Β·2,5= 3,08 π = 1,34%
π(π‘ππ‘ππ)=2,36% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Two pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.15.4. Calculation line: BACKUP
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 6 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1 W.
π = 1 π
πΌ =1
400 Β· β3 Β· 0,8 Β· 1= 0 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
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Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40ΒΊC
π(ππππ‘πππ) =8Β·1
51,52Β·400Β·2,5= 0π = 0%
π(π‘ππ‘ππ)=1,53% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.15.5. Bus Bar calculations: SP-EXT
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 24 mm2.
Amplitude: 12 mm.
Thickness: 2 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,048 ; 0,0288 ; 0,008; 0,0008.
I. admissible of the bus bar: 110 A.
a) Electrodynamic calculation
ππππ₯ =0,52
2 Β· 252
60 Β· 10 Β· 0,008 Β· 1= 35,403 β€ 1200
ππ
ππ2 πΆπ’
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b) Thermal calculation per admissible current
πΌπππ = 5,02 π΄
πΌπππ = 110 π΄
c) Check for thermal request in short circuit
πΌπππ = 0,52 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 24
1000 Β· β0,5= 5,57 ππ΄
2.16. Sub-panel SP-SUCTION
2.16.1. Power demand
-Total installed power:
SP-SUC-VENT 37.022 W
FTM1500 15.000 W
VAL-VEOLAR1500 200 W
SWITCHBOARD 20 W
PLC 200 W
SIGNAL 24V 50 W
BACKUP 1 W
BACKUP 1 W
2.16.2. Calculation line: SP-SUC-VENT
Service Voltage: 400 V.
Canalization: F-Unip. O Mult. Suports.
Longitude: 100 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 37.022 W.
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Simultaneity factor: 1.
Calculation power (according to ITC BT-47):
π = 37.000 Β· 1,25 + 22 = 46.272 π
πΌ =46.272
0,8 Β· 400 Β· β3= 83,49 π΄
We try unipolar conductors 4x35+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 144 A.
Tension fall:
Cable temperature: 56,81ΒΊC
π(ππππ‘πππ) =100Β·46.272
48,55Β·400Β·35= 6,81 π = 1,7%
π(π‘ππ‘ππ)=3,9% maximum admissible 4,5%
Thermic protection origin of line:
Four pole automatic switch In: 100 A. Thermic regulation Ireg= 100 A.
Thermic protection at the end of the line
Current of cut in load: I=100 A.
2.16.3. Calculation line: FTM1500
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 15.000 W.
Calculation power (according to ITC BT-47):
π = 15.000 Β· 1,25 = 18.750 π
πΌ =18.750
0,85 Β· 400 Β· β3 Β· 1= 33,83 π΄
We try unipolar conductors 4x10+TTx10mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 44A.
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Outer tube diameter: 32 mm.
Tension fall:
Cable temperature: 57,73ΒΊC
π(ππππ‘πππ) =15Β·18.750
48,4Β·400Β·10= 1,45 π = 0,36%
π(π‘ππ‘ππ)=2,57% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=40 A.
Differential protection:
Four pole differential switch I=40 A. Sens. I=300 mA. AC class.
2.16.4. Calculation line: SUCTION 1
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 220 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-44):
π = 220 π
πΌ =220
230 Β· 0,8= 1,2π΄
We try unipolar conductors 2x4mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 31 A.
Tension fall:
Cable temperature: 40,04ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·220
51,51Β·230Β·4= 0π = 0%
π(π‘ππ‘ππ)=2,2% maximum admissible 4,5%
Differential protection:
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Two pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.16.5. Calculation line: VAL-VEOLAR1500
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or built-in.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 200 W.
Calculation power: 200 W
πΌ =200
230 Β· 0,8= 1,09 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,08ΒΊC
π(ππππ‘πππ) =2Β·20Β·200
51,5Β·230Β·2,5= 0,27π = 0,12%
π(π‘ππ‘ππ)=2,32% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
2.16.6. Calculation line: SWITCHBOARD
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 20 W.
Calculation power: 20 π
πΌ =20
230 Β· 0,8= 0,11 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
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Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40ΒΊC
π(ππππ‘πππ) =2Β·15Β·20
51,52Β·230Β·2,5= 0,02π = 0,01%
π(π‘ππ‘ππ)=2,21% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.16.7. Calculation line: SUCTION 2
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 250 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-44):
π = 250 π
πΌ =250
230 Β· 0,8= 1,36π΄
We try unipolar conductors 2x4mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 31 A.
Tension fall:
Cable temperature: 40,06ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·250
51,51Β·230Β·4= 0π = 0%
π(π‘ππ‘ππ)=2,2% maximum admissible 4,5%
Differential protection:
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Two pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.16.8. Calculation line: PLC
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 10 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 200 W.
Calculation power: 200 π
πΌ =200
230 Β· 0,8= 1,09 π΄
We try unipolar conductors 2x4+TTx4mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 27 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,05ΒΊC
π(ππππ‘πππ) =2Β·10Β·200
51,51Β·230Β·4= 0,08π = 0,04%
π(π‘ππ‘ππ)=2,24% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.16.9. Calculation line: SIGNAL 24V
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 50 W.
Calculation power: 50 π
πΌ =50
230 Β· 0,8= 0,27 π΄
We try unipolar conductors 2x4+TTx4mm2 Cu
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Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40ΒΊC
π(ππππ‘πππ) =2Β·15Β·50
51,52Β·230Β·4= 0,03π = 0,01%
π(π‘ππ‘ππ)=2,22% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.16.10. Calculation line: BACKUP1
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 10 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1 W.
π = 1 π
πΌ =1
230 Β· 0,8= 0,01 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40ΒΊC
π(ππππ‘πππ) =2Β·10Β·1
51,52Β·230Β·2,5= 0π = 0%
π(π‘ππ‘ππ)=2,2% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
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Differential protection:
Two pole differential switch I=40 A. Sens. I=300 mA. AC class.
2.16.11. Calculation line: BACKUP2
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 10 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1 W.
π = 1 π
πΌ =1
400 Β· β3 Β· 0,8 Β· 1= 0 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40ΒΊC
π(ππππ‘πππ) =10Β·1
51,52Β·400Β·2,5= 0π = 0%
π(π‘ππ‘ππ)=2,2% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=40 A. Sens. I=300 mA. AC class.
2.16.12. Bus Bar calculations: SP-SUCTION
Data
Metal: Cu.
State of the plates: Bare.
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Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 40 mm2.
Amplitude: 20 mm.
Thickness: 2 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,133 ; 0,133 ; 0,0133; 0,0013.
I. admissible of the bus bar: 185 A.
a) Electrodynamic calculation
ππππ₯ =3,41
2 Β· 252
60 Β· 10 Β· 0,0133 Β· 1= 909,505 β€ 1.200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 111,4 π΄
πΌπππ = 185 π΄
c) Check for thermal request in short circuit
πΌπππ = 3,41 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 40
1000 Β· β0,5= 9,28 ππ΄
2.17. Sub-panel SP-SUC-VENT
2.17.1. Power demand
-Total installed power:
CUT 37.000 W
SWITCHBOARD 20 W
BACKUP 1 W
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BACKUP 1 W
2.17.2. Calculation line: CUT
Service Voltage: 400 V.
Canalization: F-Unip. O Mult. Suporters.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 37.000 W.
Calculation power (according to ITC BT-47):
π = 37000 Β· 1,25 = 46.250 π
πΌ =46.250
0,8 Β· 400 Β· β3= 83,45 π΄
We try unipolar conductors 4x35+TTx16mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 144 A.
Tension fall:
Cable temperature: 56,79ΒΊC
π(ππππ‘πππ) =20Β·46.250
48,55Β·400Β·35= 1,36π = 0,34%
π(π‘ππ‘ππ)=4,24% maximum admissible 6,5%
Thermic protection:
Four pole automatic switch In: 100 A. Thermic regulation Ireg= 100 A.
Differential protection:
Relay and differential transformer sensitivity: 300mA. AC class.
2.17.3. Calculation line: SWITCHBOARD
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 20 W.
Calculation power: 20 π
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πΌ =20
230 Β· 0,7= 0,11 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40ΒΊC
π(ππππ‘πππ) =2Β·15Β·20
51,52Β·230Β·2,5= 0,02π = 0,01%
π(π‘ππ‘ππ)=3,91% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
Differential protection:
Two pole differential switch I=25 A. Sens. I=300 mA. AC class.
2.17.4. Calculation line: BACKUP1
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 10 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1 W.
π = 1 π
πΌ =1
230 Β· 0,8= 0,01 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
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Cable temperature: 40ΒΊC
π(ππππ‘πππ) =2Β·10Β·1
51,52Β·230Β·2,5= 0π = 0%
π(π‘ππ‘ππ)=3,9% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
Differential protection:
Two pole differential switch I=40 A. Sens. I=300 mA. AC class.
2.17.5. Calculation line: BACKUP2
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 10 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1 W.
π = 1 π
πΌ =1
400 Β· β3 Β· 0,8 Β· 1= 0 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40ΒΊC
π(ππππ‘πππ) =10Β·1
51,52Β·400Β·2,5= 0π = 0%
π(π‘ππ‘ππ)=3,9% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
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Four pole differential switch I=40 A. Sens. I=300 mA. AC class.
2.17.6. Bus Bar calculations: SP-SUC-VENT
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 24 mm2.
Amplitude: 12 mm.
Thickness: 2 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,048 ; 0,0288 ; 0,008; 0,0008.
I. admissible of the bus bar: 110 A.
a) Electrodynamic calculation
ππππ₯ =1,53
2 Β· 252
60 Β· 10 Β· 0,008 Β· 1= 305,158 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 83,49 π΄
πΌπππ = 110 π΄
c) Check for thermal request in short circuit
πΌπππ = 1,53 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 24
1000 Β· β0,5= 5,57 ππ΄
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2.18. Sub-panel SP-TOILETS
2.18.1. Power demand
-Total installed power:
LT01 300 W
LT02 340 W
EMERGENCY 50 W
HDRY01 2.100 W
HDRY02 2.100 W
HDRY03 2.100 W
HDRY04 2.100 W
AIR01 690 W
BACKUP1 1 W
BACKUP2 1 W
AUTDOOR 1.000 W
2.18.2. Calculation line: TOILETS 1
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 690 W.
Simultaneity factor: 0,5.
Calculation power (according to ITC BT-44):
π = 621 π
πΌ =621
230 Β· 0,8= 3,38π΄
We try unipolar conductors 2x4mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
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According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 31 A.
Tension fall:
Cable temperature: 40,36ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·621
51,45Β·230Β·4= 0,01π = 0%
π(π‘ππ‘ππ)=0,97% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.18.3. Calculation line: LT01
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 30 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 300 W.
Calculation power (according to ITC BT-44):
π = 300 Β· 1,8 = 540 π
πΌ =540
230= 2,35 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,73ΒΊC
π(ππππ‘πππ) =2Β·30Β·540
51,38Β·230Β·1,5= 1,83π = 0,79%
π(π‘ππ‘ππ)=1,76% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
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2.18.4. Calculation line: LT02
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 30 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 340 W.
Calculation power (according to ITC BT-44):
π = 340 Β· 1,8 = 612 π
πΌ =612
230= 2,66 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,94ΒΊC
π(ππππ‘πππ) =2Β·30Β·612
51,34Β·230Β·1,5= 2,07π = 0,9%
π(π‘ππ‘ππ)=1,87% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.18.5. Calculation line: EMERGENCY
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 20 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 50 W.
Calculation power (according to ITC BT-44):
π = 50 Β· 1,8 = 90 π
πΌ =90
230= 0,39 π΄
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We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,02ΒΊC
π(ππππ‘πππ) =2Β·20Β·90
51,51Β·230Β·1,5= 0,2π = 0,09%
π(π‘ππ‘ππ)=1,05% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.18.6. Calculation line: TOILETS 2
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 4.200 W.
Simultaneity factor: 0,5.
Calculation power (according to ITC BT-44):
π = 2.100 π
πΌ =2.100
230 Β· 0,8= 11,41π΄
We try unipolar conductors 2x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Tension fall:
Cable temperature: 42,44ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·2.100
51,06Β·230Β·6= 0,02π = 0,01%
π(π‘ππ‘ππ)=0,97% maximum admissible 4,5%
Differential protection:
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Two pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.18.7. Calculation line: HDRY01
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.100 W.
Calculation power: 2.100 π
πΌ =2.100
0,8 Β· 230= 11,41 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 48,86ΒΊC
π(ππππ‘πππ) =2Β·15Β·2.100
49,91Β·230Β·2,5= 2,2π = 0,95%
π(π‘ππ‘ππ)=1,92% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
2.18.8. Calculation line: HDRY02
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.100 W.
Calculation power: 2.100 π
πΌ =2.100
0,8 Β· 230= 11,41 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
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Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 48,86ΒΊC
π(ππππ‘πππ) =2Β·20Β·2.100
49,91Β·230Β·2,5= 2,93π = 1,27%
π(π‘ππ‘ππ)=2,24% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
2.18.9. Calculation line: TOILETS 3
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 4.200 W.
Simultaneity factor: 0,5.
Calculation power (according to ITC BT-44):
π = 2.100 π
πΌ =2.100
230 Β· 0,8= 11,41π΄
We try unipolar conductors 2x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Tension fall:
Cable temperature: 42,44ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·2.100
51,06Β·230Β·6= 0,02π = 0,01%
π(π‘ππ‘ππ)=0,97% maximum admissible 4,5%
Differential protection:
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Two pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.18.10. Calculation line: HDRY03
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.100 W.
Calculation power: 2.100 π
πΌ =2.100
0,8 Β· 230= 11,41 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 48,86ΒΊC
π(ππππ‘πππ) =2Β·15Β·2.100
49,91Β·230Β·2,5= 2,2π = 0,95%
π(π‘ππ‘ππ)=1,92% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
2.18.11. Calculation line: HDRY04
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.100 W.
Calculation power: 2.100 π
πΌ =2.100
0,8 Β· 230= 11,41 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
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Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 48,86ΒΊC
π(ππππ‘πππ) =2Β·20Β·2.100
49,91Β·230Β·2,5= 2,93π = 1,27%
π(π‘ππ‘ππ)=2,24% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
2.18.12. Calculation line: AIR01
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 690 W.
Calculation power (according to ITC BT-47):
π = 690 Β· 1,25 = 862,5 π
πΌ =862,5
0,8 Β· 230= 4,69 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41,49ΒΊC
π(ππππ‘πππ) =2Β·20Β·862,5
51,24Β·230Β·2,5= 1,17π = 0,51%
π(π‘ππ‘ππ)=1,47% maximum admissible 6,5%
Thermic protection:
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Two pole magnetothermic switch I=16 A.
Differential protection:
Two pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.18.13. Calculation line: TOILETS 4
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2 W.
Simultaneity factor: 0,5.
Calculation power:
π = 1 π
πΌ =1
230 Β· 0,8= 0,01π΄
We try unipolar conductors 2x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Tension fall:
Cable temperature: 40ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·1
51,52Β·230Β·6= 0π = 0%
π(π‘ππ‘ππ)=0,96% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.18.14. Calculation line: BACKUP1
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1 W.
π = 1 π
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πΌ =1
230 Β· 0,8= 0,01 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40ΒΊC
π(ππππ‘πππ) =2Β·20Β·1
51,52Β·230Β·2,5= 0π = 0%
π(π‘ππ‘ππ)=0,96% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
2.18.15. Calculation line: BACKUP2
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1 W.
π = 1 π
πΌ =1
230 Β· 0,8= 0,01 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40ΒΊC
π(ππππ‘πππ) =2Β·15Β·1
51,52Β·230Β·2,5= 0π = 0%
π(π‘ππ‘ππ)=0,96% maximum admissible 6,5%
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Thermic protection:
Two pole magnetothermic switch I=16 A.
2.18.16. Calculation line: AUTDOOR
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power (according to ITC BT-47):
π = 1.000 Β· 1,25 = 1.250 π
πΌ =1.250
0,8 Β· 230= 6,79 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 43,14ΒΊC
π(ππππ‘πππ) =2Β·20Β·1.250
50,94Β·230Β·2,5= 1,71π = 0,74%
π(π‘ππ‘ππ)=1,7% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
Differential protection:
Two pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.18.17. Bus Bar calculations: SP-TOILETS
Data
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Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 24 mm2.
Amplitude: 12 mm.
Thickness: 2 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,048 ; 0,0288 ; 0,008; 0,0008.
I. admissible of the bus bar: 110 A.
a) Electrodynamic calculation
ππππ₯ =0,78
2 Β· 252
60 Β· 10 Β· 0,008 Β· 1= 78,824 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 6,59 π΄
πΌπππ = 110 π΄
c) Check for thermal request in short circuit
πΌπππ = 0,78 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 24
1000 Β· β0,5= 5,57 ππ΄
2.19. Sub-panel SP-OFFICES
2.19.1. Power demand
-Total installed power:
LT01 1.205 W
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LT02 1.187 W
EMERGENCY 50 W
LT03 1.505 W
LT04 992 W
LT05 524 W
EMERGENCY 50 W
PLUG01 1.500 W
PLUG02 1.500 W
PLUG03 1.500 W
CLI05 2.500 W
PLUG04 1.500 W
PLUG05 1.500 W
PLUG06 1.500 W
CLI01 2.497 W
CLI02 1.705 W
CLI03 2.205 W
CLI04 2.500 W
DOOR 1.000 W
2.19.2. Calculation line: OFFICES 1
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.442 W.
Simultaneity factor: 0,5.
Calculation power (according to ITC BT-44):
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π = 1.241 π
πΌ =1.241
230 Β· 0,8= 6,74π΄
We try unipolar conductors 2x4mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 31 A.
Tension fall:
Cable temperature: 41,42ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·1.241
51,25Β·230Β·4= 0,02π = 0,01%
π(π‘ππ‘ππ)=1,04% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.19.3. Calculation line: LT01
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or built-in.
Longitude: 25 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 1.205 W.
Calculation power (according to ITC BT-44):
π = 773 Β· 1 + 432 = 1.205 π
πΌ =1.205
230 Β· 1= 5,24 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 43,66ΒΊC
π(ππππ‘πππ) =2Β·25Β·1.205
50,84Β·230Β·1,5= 3,44π = 1,49%
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π(π‘ππ‘ππ)=2,54% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.19.4. Calculation line: LT02
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or built-in.
Longitude: 30 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 1.187 W.
Calculation power (according to ITC BT-44):
π = 17 Β· 1 + 1.170 = 1.187 π
πΌ =1.187
230 Β· 1= 5,16 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 43,55ΒΊC
π(ππππ‘πππ) =2Β·30Β·1.187
50,86Β·230Β·1,5= 4,06π = 1,76%
π(π‘ππ‘ππ)=2,81% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.19.5. Calculation line: EMERGENCY
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 35 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 50 W.
Calculation power (according to ITC BT-44):
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π = 50 Β· 1,8 = 90 π
πΌ =90
230= 0,39 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,02ΒΊC
π(ππππ‘πππ) =2Β·35Β·90
51,51Β·230Β·1,5= 0,35π = 0,15%
π(π‘ππ‘ππ)=1,2% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.19.6. Calculation line: OFFICES 2
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 3.701 W.
Simultaneity factor: 0,5.
Calculation power (according to ITC BT-44):
π = 1.619,9 π
πΌ =1.619,9
230 Β· 0,8= 8,8 π΄
We try unipolar conductors 2x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Tension fall:
Cable temperature: 41,45ΒΊC
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π(ππππ‘πππ) =2Β·0,3Β·1.619,9
51,52Β·230Β·6= 0,01π = 0,01%
π(π‘ππ‘ππ)=1,04% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.19.7. Calculation line: LT03
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or built-in.
Longitude: 25 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 1.505 W.
Calculation power (according to ITC BT-44):
π = 17 Β· 1,8 + 1.488 = 1.518,6 π
πΌ =1.518,6
230 Β· 1= 6,6 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 45,81ΒΊC
π(ππππ‘πππ) =2Β·25Β·1.518,6
50,45Β·230Β·1,5= 4,36π = 1,9%
π(π‘ππ‘ππ)=2,94% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.19.8. Calculation line: LT04
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or built-in.
Longitude: 25 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 992 W.
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Calculation power (according to ITC BT-44):
π = 992 π
πΌ =992
230 Β· 1= 4,31 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 42,48ΒΊC
π(ππππ‘πππ) =2Β·25Β·992
51,06Β·230Β·1,5= 2,82π = 1,22%
π(π‘ππ‘ππ)=2,27% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.19.9. Calculation line: LT05
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or built-in.
Longitude: 30 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 524 W.
Calculation power (according to ITC BT-44):
π = 144 Β· 1,8 + 380 = 639,2 π
πΌ =639,2
230 Β· 1= 2,87 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 41,03ΒΊC
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208
π(ππππ‘πππ) =2Β·30Β·639,2
51,32Β·230Β·1,5= 2,17π = 0,94%
π(π‘ππ‘ππ)=1,98% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.19.10. Calculation line: EMERGENCY
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 40 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 50 W.
Calculation power (according to ITC BT-44):
π = 50 Β· 1,8 = 90 π
πΌ =90
230= 0,39 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,02ΒΊC
π(ππππ‘πππ) =2Β·40Β·90
51,51Β·230Β·1,5= 0,41π = 0,18%
π(π‘ππ‘ππ)=1,22% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.19.11. Calculation line: OFFICES 3
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
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Power to install: 4.500 W.
Simultaneity factor: 0,3.
Calculation power (according to ITC BT-44):
π = 1.350 π
πΌ =1.350
230 Β· 0,8= 7,34 π΄
We try unipolar conductors 2x10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 54 A.
Tension fall:
Cable temperature: 40,55ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·1.350
51,41Β·230Β·10= 0,01π = 0%
π(π‘ππ‘ππ)=1,04% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=63 A. Sens. I=30 mA. AC class.
2.19.12. Calculation line: PLUG01
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 45 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.500 W.
Calculation power: 1.500 W
πΌ =1.500
0,8 Β· 230= 8,15 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
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210
Cable temperature: 44,52ΒΊC
π(ππππ‘πππ) =2Β·45Β·1.500
50,68Β·230Β·2,5= 4,63 π = 2,01%
π(π‘ππ‘ππ)=3,05% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.19.13. Calculation line: PLUG02
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 45 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.500 W.
Calculation power: 1.500 W
πΌ =1.500
0,8 Β· 230= 8,15 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,52ΒΊC
π(ππππ‘πππ) =2Β·45Β·1.500
50,68Β·230Β·2,5= 4,63 π = 2,01%
π(π‘ππ‘ππ)=3,05% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.19.14. Calculation line: PLUG03
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 45 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.500 W.
Calculation power: 1.500 W
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πΌ =1.500
0,8 Β· 230= 8,15 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,52ΒΊC
π(ππππ‘πππ) =2Β·45Β·1.500
50,68Β·230Β·2,5= 4,63 π = 2,01%
π(π‘ππ‘ππ)=3,05% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.19.15. Calculation line: CLI05
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 40 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.500 W.
Calculation power (according to ITC BT-47):
π = 250 Β· 1,25 + 2.250 = 2.562,5 π
πΌ =2.562,5
0,8 Β· 230= 13,93 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 53,19ΒΊC
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212
π(ππππ‘πππ) =2Β·40Β·2.562,5
49,16Β·230Β·2,5= 7,25π = 3,15%
π(π‘ππ‘ππ)=4,19% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
Differential protection:
Two pole differential switch I=40 A. Sens. I=300 mA. AC class.
2.19.16. Calculation line: OFFICES 4
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 4.500 W.
Simultaneity factor: 0,3.
Calculation power (according to ITC BT-44):
π = 1.350 π
πΌ =1.350
230 Β· 0,8= 7,34 π΄
We try unipolar conductors 2x10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 54 A.
Tension fall:
Cable temperature: 40,55ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·1.350
51,41Β·230Β·10= 0,01π = 0%
π(π‘ππ‘ππ)=1,04% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=63 A. Sens. I=30 mA. AC class.
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2.19.17. Calculation line: PLUG04
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 45 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.500 W.
Calculation power: 1.500 W
πΌ =1.500
0,8 Β· 230= 8,15 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,52ΒΊC
π(ππππ‘πππ) =2Β·45Β·1.500
50,68Β·230Β·2,5= 4,63 π = 2,01%
π(π‘ππ‘ππ)=3,05% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.19.18. Calculation line: PLUG05
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.500 W.
Calculation power: 1.500 W
πΌ =1.500
0,8 Β· 230= 8,15 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
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Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,52ΒΊC
π(ππππ‘πππ) =2Β·25Β·1.500
50,68Β·230Β·2,5= 2,57 π = 1,12%
π(π‘ππ‘ππ)=2,16% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.19.19. Calculation line: PLUG06
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 44 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.500 W.
Calculation power: 1.500 W
πΌ =1.500
0,8 Β· 230= 8,15 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,52ΒΊC
π(ππππ‘πππ) =2Β·44Β·1.500
50,68Β·230Β·2,5= 4,53 π = 1,97%
π(π‘ππ‘ππ)=3,01% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
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2.19.20. Calculation line: OFFICES 5
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 6.407 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-47):
π = 1.705 Β· 1,25 + 4.702 = 6.833,25 π
πΌ =6.833,25
230 Β· 0,8= 37,14 π΄
We try unipolar conductors 2x10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 54 A.
Tension fall:
Cable temperature: 54,19ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·6.833,25
48,99Β·230Β·10= 0,04π = 0,02%
π(π‘ππ‘ππ)=1,05% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=63 A. Sens. I=30 mA. AC class.
2.19.21. Calculation line: CLI01
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.497 W.
Calculation power (according to ITC BT-47):
π = 497 Β· 1,25 + 2.000 = 2.621,25 π
πΌ =2.621,25
0,8 Β· 230= 14,25 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Memoria
216
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 53,81ΒΊC
π(ππππ‘πππ) =2Β·25Β·2.621,25
49,05Β·230Β·2,5= 4,65π = 2,02%
π(π‘ππ‘ππ)=3,07% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
2.19.22. Calculation line: CLI02
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 30 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.705 W.
Calculation power (according to ITC BT-47):
π = 1.705 Β· 1,25 = 2.131,25 π
πΌ =2.131,25
0,8 Β· 230= 11,58 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 49,13ΒΊC
π(ππππ‘πππ) =2Β·30Β·2.131,25
49,86Β·230Β·2,5= 4,46π = 1,94%
π(π‘ππ‘ππ)=2,99% maximum admissible 6,5%
Thermic protection:
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Two pole magnetothermic switch I=16 A.
2.19.23. Calculation line: CLI03
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 35 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.205 W.
Calculation power (according to ITC BT-47):
π = 205 Β· 1,25 + 2.000 = 2.256,25 π
πΌ =2.256,25
0,8 Β· 230= 12,26 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 50,23ΒΊC
π(ππππ‘πππ) =2Β·35Β·2.256,25
49,67Β·230Β·2,5= 5,53π = 2,4%
π(π‘ππ‘ππ)=3,46% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
2.19.24. Calculation line: CLI04
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 40 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.500 W.
Calculation power (according to ITC BT-47):
π = 250 Β· 1,25 + 2.250 = 2.562,5 π
Memoria
218
πΌ =2.562,5
0,8 Β· 230= 13,93 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 53,19ΒΊC
π(ππππ‘πππ) =2Β·40Β·2.562,5
49,16Β·230Β·2,5= 7,25π = 3,15%
π(π‘ππ‘ππ)=4,19% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
Differential protection:
Two pole differential switch I=40 A. Sens. I=300 mA. AC class.
2.19.25. Calculation line: DOOR
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 35 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power (according to ITC BT-47):
π = 1.000 Β· 1,25 = 1.250 π
πΌ =1.250
0,8 Β· 230= 6,79 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21 A.
Outer tube diameter: 20 mm.
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Tension fall:
Cable temperature: 43,14ΒΊC
π(ππππ‘πππ) =2Β·35Β·1.250
50,94Β·230Β·2,5= 2,99π = 1,3%
π(π‘ππ‘ππ)=2,34% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
Differential protection:
Two pole differential switch I=40 A. Sens. I=300 mA. AC class.
2.19.26. Bus Bar calculations: SP-OFFICES
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 24 mm2.
Amplitude: 12 mm.
Thickness: 2 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,048 ; 0,0288 ; 0,008; 0,0008.
I. admissible of the bus bar: 110 A.
a) Electrodynamic calculation
ππππ₯ =2,96
2 Β· 252
60 Β· 10 Β· 0,008 Β· 1= 1.138,322 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
Memoria
220
πΌπππ = 30,14 π΄
πΌπππ = 110 π΄
c) Check for thermal request in short circuit
πΌπππ = 2,96 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 24
1000 Β· β0,5= 5,57 ππ΄
2.20. Sub-panel SP-INFORMATICS
2.20.1. Power demand
-Total installed power:
PSAI11 1.000 W
PSAI12 1.000 W
PSAI01 1.000 W
PSAI02 1.000 W
PSAI03 1.000 W
PSAI04 1.000 W
PSAI05 1.000 W
PSAI06 1.000 W
PSAI07 1.000 W
PSAI08 1.000 W
PSAI09 1.000 W
PSAI10 1.000 W
AIRCON01 690 W
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RACK COM1 500 W
RACK SER1 500 W
RACK COM2 500 W
RACK SER2 500 W
CCTV 1.500 W
SP-SAILOG 3.000 W
SP-RACK B 2.400 W
2.20.2. Calculation line: PLUGSAI 1
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.000 W.
Simultaneity factor: 1.
Calculation power: 2.000 W
πΌ =2.000
0,8 Β· 230= 10,87 π΄
We try unipolar conductors 2x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Tension fall:
Cable temperature: 42,22ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·2.000
51,11Β·230Β·6= 0,02 π = 0,01%
π(π‘ππ‘ππ)=0,93% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class βsiβ.
Memoria
222
2.20.3. Calculation line: PSAI11
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 50 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power: 1.000 W
πΌ =1.000
0,8 Β· 230= 5,43 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,79ΒΊC
π(ππππ‘πππ) =2Β·50Β·1.000
51Β·230Β·2,5= 3,41 π = 1,48%
π(π‘ππ‘ππ)=2,41% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.20.4. Calculation line: PSAI12
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 40 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power: 1.000 W
πΌ =1.000
0,8 Β· 230= 5,43 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
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According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,79ΒΊC
π(ππππ‘πππ) =2Β·40Β·1.000
51Β·230Β·2,5= 2,73 π = 1,19%
π(π‘ππ‘ππ)=2,11% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.20.5. Calculation line: PLUGSAI 2
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.000 W.
Simultaneity factor: 1.
Calculation power: 2.000 W
πΌ =2.000
0,8 Β· 230= 10,87 π΄
We try unipolar conductors 2x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Tension fall:
Cable temperature: 42,22ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·2.000
51,11Β·230Β·6= 0,02 π = 0,01%
π(π‘ππ‘ππ)=0,93% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class βsiβ.
Memoria
224
2.20.6. Calculation line: PSAI10
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 50 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power: 1.000 W
πΌ =1.000
0,8 Β· 230= 5,43 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,79ΒΊC
π(ππππ‘πππ) =2Β·50Β·1.000
51Β·230Β·2,5= 3,41 π = 1,48%
π(π‘ππ‘ππ)=2,41% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.20.7. Calculation line: PSAI01
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power: 1.000 W
πΌ =1.000
0,8 Β· 230= 5,43 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
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According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,79ΒΊC
π(ππππ‘πππ) =2Β·15Β·1.000
51Β·230Β·2,5= 1,02 π = 0,44%
π(π‘ππ‘ππ)=1,37% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.20.8. Calculation line: PLUGSAI 3
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.000 W.
Simultaneity factor: 1.
Calculation power: 2.000 W
πΌ =2.000
0,8 Β· 230= 10,87 π΄
We try unipolar conductors 2x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Tension fall:
Cable temperature: 42,22ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·2.000
51,11Β·230Β·6= 0,02 π = 0,01%
π(π‘ππ‘ππ)=0,93% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class βsiβ.
Memoria
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2.20.9. Calculation line: PSAI02
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power: 1.000 W
πΌ =1.000
0,8 Β· 230= 5,43 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,79ΒΊC
π(ππππ‘πππ) =2Β·20Β·1.000
51Β·230Β·2,5= 1,36 π = 0,59%
π(π‘ππ‘ππ)=1,52% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.20.10. Calculation line: PSAI03
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power: 1.000 W
πΌ =1.000
0,8 Β· 230= 5,43 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
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According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,79ΒΊC
π(ππππ‘πππ) =2Β·20Β·1.000
51Β·230Β·2,5= 1,36 π = 0,59%
π(π‘ππ‘ππ)=1,52% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.20.11. Calculation line: PLUGSAI 4
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.000 W.
Simultaneity factor: 1.
Calculation power: 2.000 W
πΌ =2.000
0,8 Β· 230= 10,87 π΄
We try unipolar conductors 2x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Tension fall:
Cable temperature: 42,22ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·2.000
51,11Β·230Β·6= 0,02 π = 0,01%
π(π‘ππ‘ππ)=0,93% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class βsiβ.
Memoria
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2.20.12. Calculation line: PSAI04
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power: 1.000 W
πΌ =1.000
0,8 Β· 230= 5,43 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,79ΒΊC
π(ππππ‘πππ) =2Β·20Β·1.000
51Β·230Β·2,5= 1,36 π = 0,59%
π(π‘ππ‘ππ)=1,52% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.20.13. Calculation line: PSAI05
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power: 1.000 W
πΌ =1.000
0,8 Β· 230= 5,43 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
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According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,79ΒΊC
π(ππππ‘πππ) =2Β·15Β·1.000
51Β·230Β·2,5= 1,02 π = 0,44%
π(π‘ππ‘ππ)=1,37% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.20.14. Calculation line: PLUGSAI 5
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.000 W.
Simultaneity factor: 1.
Calculation power: 2.000 W
πΌ =2.000
0,8 Β· 230= 10,87 π΄
We try unipolar conductors 2x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Tension fall:
Cable temperature: 42,22ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·2.000
51,11Β·230Β·6= 0,02 π = 0,01%
π(π‘ππ‘ππ)=0,93% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class βsiβ.
Memoria
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2.20.15. Calculation line: PSAI06
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power: 1.000 W
πΌ =1.000
0,8 Β· 230= 5,43 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,79ΒΊC
π(ππππ‘πππ) =2Β·20Β·1.000
51Β·230Β·2,5= 1,36 π = 0,59%
π(π‘ππ‘ππ)=1,52% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.20.16. Calculation line: PSAI07
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power: 1.000 W
πΌ =1.000
0,8 Β· 230= 5,43 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
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According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,79ΒΊC
π(ππππ‘πππ) =2Β·20Β·1.000
51Β·230Β·2,5= 1,36 π = 0,59%
π(π‘ππ‘ππ)=1,52% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.20.17. Calculation line: PLUGSAI 6
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.000 W.
Simultaneity factor: 1.
Calculation power: 2.000 W
πΌ =2.000
0,8 Β· 230= 10,87 π΄
We try unipolar conductors 2x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Tension fall:
Cable temperature: 42,22ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·2.000
51,11Β·230Β·6= 0,02 π = 0,01%
π(π‘ππ‘ππ)=0,93% maximum admissible 4,5%
Differential protection:
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Two pole differential switch I=40 A. Sens. I=30 mA. AC class βsiβ.
2.20.18. Calculation line: PSAI08
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power: 1.000 W
πΌ =1.000
0,8 Β· 230= 5,43 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,79ΒΊC
π(ππππ‘πππ) =2Β·20Β·1.000
51Β·230Β·2,5= 1,36π = 0,59%
π(π‘ππ‘ππ)=1,52% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.20.19. Calculation line: PSAI09
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power: 1.000 W
πΌ =1.000
0,8 Β· 230= 5,43 π΄
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We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,79ΒΊC
π(ππππ‘πππ) =2Β·20Β·1.000
51Β·230Β·2,5= 1,36 π = 0,59%
π(π‘ππ‘ππ)=1,52% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.20.20. Calculation line: AIRCON01
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;R:1;
Power to install: 690 W.
Calculation power (according to ITC BT-47):
π = 690 Β· 1,25 = 862,5 π
πΌ =862,5
0,8 Β· 230= 4,69 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,08ΒΊC
π(ππππ‘πππ) =2Β·15Β·862,5
51,13Β·230Β·2,5= 0,88 π = 0,38%
π(π‘ππ‘ππ)=1,3% maximum admissible 6,5%
Thermic protection:
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Two pole magnetothermic switch I=16 A
Differential protection:
Two pole differential switch I=25 A. Sens. I=300 mA. AC class.
2.20.21. Calculation line: RACK 1
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Simultaneity factor: 1.
Calculation power: 1.000 W
πΌ =1.000
0,8 Β· 230= 5,43 π΄
We try unipolar conductors 2x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Tension fall:
Cable temperature: 40,55ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·1.000
51,41Β·230Β·6= 0,01 π = 0%
π(π‘ππ‘ππ)=0,92% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class βsiβ.
2.20.22. Calculation line: RACK COM1
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 500 W.
Calculation power: 500 W.
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πΌ =500
0,8 Β· 230= 2,72 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,7ΒΊC
π(ππππ‘πππ) =2Β·15Β·500
51,39Β·230Β·2,5= 0,51 π = 0,22%
π(π‘ππ‘ππ)=1,14% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.20.23. Calculation line: RACK SER1
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 500 W.
Calculation power: 500 W.
πΌ =500
0,8 Β· 230= 2,72 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,7ΒΊC
π(ππππ‘πππ) =2Β·15Β·500
51,39Β·230Β·2,5= 0,51 π = 0,22%
π(π‘ππ‘ππ)=1,14% maximum admissible 6,5%
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236
Thermic protection:
Two pole magnetothermic switch I=16 A
2.20.24. Calculation line: RACK 2
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Simultaneity factor: 1.
Calculation power: 1.000 W
πΌ =1.000
0,8 Β· 230= 5,43 π΄
We try unipolar conductors 2x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Tension fall:
Cable temperature: 40,55ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·1.000
51,41Β·230Β·6= 0,01 π = 0%
π(π‘ππ‘ππ)=0,92% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class βsiβ.
2.20.25. Calculation line: RACK COM2
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 500 W.
Calculation power: 500 W.
πΌ =500
0,8 Β· 230= 2,72 π΄
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We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,7ΒΊC
π(ππππ‘πππ) =2Β·20Β·500
51,39Β·230Β·2,5= 0,68 π = 0,29%
π(π‘ππ‘ππ)=1,22% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.20.26. Calculation line: RACK SER2
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 500 W.
Calculation power: 500 W.
πΌ =500
0,8 Β· 230= 2,72 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,7ΒΊC
π(ππππ‘πππ) =2Β·20Β·500
51,39Β·230Β·2,5= 0,68 π = 0,29%
π(π‘ππ‘ππ)=1,22% maximum admissible 6,5%
Thermic protection:
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Two pole magnetothermic switch I=16 A
2.20.27. Calculation line: CCTV
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.500 W.
Calculation power: 1.500 W.
πΌ =1.500
0,8 Β· 230= 8,15 π΄
We try two pole conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 46,28ΒΊC
π(ππππ‘πππ) =2Β·20Β·1.500
50,37Β·230Β·2,5= 2,07 π = 0,9%
π(π‘ππ‘ππ)=1,22% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class βsiβ.
2.20.28. Calculation line: SP-SAILOG
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 150 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 3.000 W.
Simultaneity factor: 1.
Calculation power: 3.000 W.
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πΌ =3.000
1 Β· 230= 13,04 π΄
We try two pole conductors 2x10+TTx10mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 54A.
Outer tube diameter: 25 mm.
Tension fall:
Cable temperature: 46,28ΒΊC
π(ππππ‘πππ) =2Β·150Β·3.000
50,98Β·230Β·10= 7,68 π = 3,34%
π(π‘ππ‘ππ)=4,26% maximum admissible 4,5%
Thermic protection origin of line:
Two pole magnetothermic switch I=32 A
Thermic protection at the end of the line
Current of cut in load: I=63 A.
2.20.29. Calculation line: SP-RACK B
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 140 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.400 W.
Simultaneity factor: 1.
Calculation power: 2.400 W.
πΌ =2.400
0,8 Β· 230= 13,04 π΄
We try two pole conductors 2x10+TTx10mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 54A.
Outer tube diameter: 25 mm.
Memoria
240
Tension fall:
Cable temperature: 42,92ΒΊC
π(ππππ‘πππ) =2Β·140Β·2.400
50,98Β·230Β·10= 5,73 π = 2,49%
π(π‘ππ‘ππ)=3,41% maximum admissible 4,5%
Thermic protection origin of line:
Two pole magnetothermic switch I=32 A
Thermic protection at the end of the line
Current of cut in load: I=63 A.
2.20.30. Bus Bar calculations: SP-INFORMATICS
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 24 mm2.
Amplitude: 12 mm.
Thickness: 2 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,048 ; 0,0288 ; 0,008; 0,0008.
I. admissible of the bus bar: 110 A.
a) Electrodynamic calculation
ππππ₯ =2,49
2 Β· 252
60 Β· 10 Β· 0,008 Β· 1= 809,594 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
Electrification project in a box factory
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πΌπππ = 19,79 π΄
πΌπππ = 110 π΄
c) Check for thermal request in short circuit
πΌπππ = 2,49 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 24
1000 Β· β0,5= 5,57 ππ΄
2.21. Sub-panel SP-SAILOG
2.21.1. Power demand
-Total installed power:
PSAI01 1.000 W
PSAI02 1.000 W
PSAI03 1.000 W
2.21.2. Calculation line: SAILOG
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 2.000 W.
Simultaneity factor: 1.
Calculation power: 2.000 W
πΌ =2.000
1 Β· 230= 8,7 π΄
We try unipolar conductors 2x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Tension fall:
Cable temperature: 41,42ΒΊC
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π(ππππ‘πππ) =2Β·0,3Β·2.000
51,25Β·230Β·6= 0,02 π = 0,01%
π(π‘ππ‘ππ)=4,26% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class βsiβ.
2.21.3. Calculation line: PSAI01
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 10 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power: 1.000 W
πΌ =1.000
1 Β· 230= 4,35 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41,79ΒΊC
π(ππππ‘πππ) =2Β·10Β·1.000
51,18Β·230Β·2,5= 0,68 π = 0,3%
π(π‘ππ‘ππ)=4,56% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.21.4. Calculation line: PSAI02
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 10 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power: 1.000 W
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πΌ =1.000
1 Β· 230= 4,35 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 26,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41,35ΒΊC
π(ππππ‘πππ) =2Β·10Β·1.000
51,27Β·230Β·2,5= 0,68 π = 0,29%
π(π‘ππ‘ππ)=4,56% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.21.5. Calculation line: PSAI03
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 15 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 1.000 W.
Calculation power: 1.000 W
πΌ =1.000
1 Β· 230= 4,35 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41,79ΒΊC
π(ππππ‘πππ) =2Β·15Β·1.000
51,18Β·230Β·2,5= 1,02 π = 0,44%
π(π‘ππ‘ππ)=4,7% maximum admissible 6,5%
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Thermic protection:
Two pole magnetothermic switch I=16 A
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class βsiβ.
2.21.6. Bus Bar calculations: SP-SAILOG
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 24 mm2.
Amplitude: 12 mm.
Thickness: 2 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,048 ; 0,0288 ; 0,008; 0,0008.
I. admissible of the bus bar: 110 A.
a) Electrodynamic calculation
ππππ₯ =0,44
2 Β· 252
60 Β· 10 Β· 0,008 Β· 1= 24,671 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 13,04 π΄
πΌπππ = 110 π΄
c) Check for thermal request in short circuit
πΌπππ = 0,44 ππ΄
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πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 24
1000 Β· β0,5= 5,57 ππ΄
2.22. Sub-panel SP-RACKB
2.22.1. Power demand
-Total installed power:
PRACKB01 600 W
PRACKB02 600 W
PRACKB03 600 W
PRACKB04 600 W
2.22.2. Calculation line: RACKB 1
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.200 W.
Simultaneity factor: 1.
Calculation power: 1.200 W
πΌ =1.200
0,8 Β· 230= 6,52 π΄
We try two pole conductors 2x6mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 41,33ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·1.200
51,27Β·230Β·6= 0,01 π = 0%
π(π‘ππ‘ππ)=3,42% maximum admissible 4,5%
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Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class βsiβ.
2.22.3. Calculation line: PRACKB01
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 600 W.
Calculation power: 600 W
πΌ =600
0,8 Β· 230= 3,26 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,72ΒΊC
π(ππππ‘πππ) =2Β·15Β·600
51,38Β·230Β·2,5= 0,61 π = 0,26%
π(π‘ππ‘ππ)=3,68% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.22.4. Calculation line: PRACKB02
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 600 W.
Calculation power: 600 W
πΌ =600
0,8 Β· 230= 3,26 π΄
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We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,72ΒΊC
π(ππππ‘πππ) =2Β·15Β·600
51,38Β·230Β·2,5= 0,61 π = 0,26%
π(π‘ππ‘ππ)=3,68% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.22.5. Calculation line: RACKB 2
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.200 W.
Simultaneity factor: 1.
Calculation power: 1.200 W
πΌ =1.200
0,8 Β· 230= 6,52 π΄
We try two pole conductors 2x6mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 41,33ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·1.200
51,27Β·230Β·6= 0,01 π = 0%
π(π‘ππ‘ππ)=3,42% maximum admissible 4,5%
Differential protection:
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Two pole differential switch I=40 A. Sens. I=30 mA. AC class βsiβ.
2.22.6. Calculation line: PRACKB03
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 600 W.
Calculation power: 600 W
πΌ =600
0,8 Β· 230= 3,26 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,72ΒΊC
π(ππππ‘πππ) =2Β·15Β·600
51,38Β·230Β·2,5= 0,61 π = 0,26%
π(π‘ππ‘ππ)=3,68% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.22.7. Calculation line: PRACKB04
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 600 W.
Calculation power: 600 W
πΌ =600
0,8 Β· 230= 3,26 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
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According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,72ΒΊC
π(ππππ‘πππ) =2Β·20Β·600
51,38Β·230Β·2,5= 0,81 π = 0,35%
π(π‘ππ‘ππ)=3,77% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.22.8. Bus Bar calculations: SP-RACKB
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 24 mm2.
Amplitude: 12 mm.
Thickness: 2 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,048 ; 0,0288 ; 0,008; 0,0008.
I. admissible of the bus bar: 110 A.
a) Electrodynamic calculation
ππππ₯ =0,46
2 Β· 252
60 Β· 10 Β· 0,008 Β· 1= 27,631 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 13,04 π΄
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πΌπππ = 110 π΄
c) Check for thermal request in short circuit
πΌπππ = 0,46 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 24
1000 Β· β0,5= 5,57 ππ΄
2.23. Sub-panel SP-FIREPROT
2.23.1. Power demand
-Total installed power:
LT01 288 W
EMERGENCY 50 W
PLUG 2.000 W
POWER GRILL 1.250 W
CHLORINATION 250 W
AEROTHERM 5.000 W
RESISTANCE TANK 3.000 W
2.23.2. Calculation line: FIREPROT 1
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 338 W.
Simultaneity factor: 0,6.
Calculation power: 226,8 W
πΌ =226,8
0,8 Β· 230= 1,23 π΄
We try two pole conductors 2x2,5mm2 Cu
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Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23 A.
Tension fall:
Cable temperature: 40,09ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·226,8
51,5Β·230Β·2,5= 0 π = 0%
π(π‘ππ‘ππ)=1,06% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.23.3. Calculation line: LT01
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 35 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 288 W.
Calculation power (according to ITC BT-44):
π = 288 Β· 1 = 288 π
πΌ =288
230= 1,25 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,21ΒΊC
π(ππππ‘πππ) =2Β·35Β·288
51,48Β·230Β·1,5= 1,14π = 0,49%
π(π‘ππ‘ππ)=1,55% maximum admissible 4,5%
Thermic protection:
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Two pole magnetothermic switch I=10 A.
2.23.4. Calculation line: EMERGENCY
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 30 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 50 W.
Calculation power (according to ITC BT-44):
π = 50 Β· 1,8 = 90 π
πΌ =90
230= 0,39 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,02ΒΊC
π(ππππ‘πππ) =2Β·30Β·90
51,51Β·230Β·1,5= 0,3π = 0,13%
π(π‘ππ‘ππ)=1,19% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.23.5. Calculation line: PLUG
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.000 W.
Calculation power: 2.000 W
πΌ =2.000
0,8 Β· 230= 10,87 π΄
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We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 48,04ΒΊC
π(ππππ‘πππ) =2Β·25Β·2.000
50,05Β·230Β·2,5= 3,47 π = 1,51%
π(π‘ππ‘ππ)=2,57% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
Differential protection:
Two pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.23.6. Calculation line: POWER GRILL
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.250 W.
Calculation power (according to ITC BT-47):
π = 1.250 Β· 1,25 = 1.562,5 π
πΌ =1.562,5.
0,8 Β· 230= 8,49 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,91ΒΊC
π(ππππ‘πππ) =2Β·25Β·1.562,5
50,61Β·230Β·2,5= 2,68 π = 1,17%
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π(π‘ππ‘ππ)=2,22% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
Differential protection:
Two pole differential switch I=25 A. Sens. I=30 mA. AC class.
Switching element
Two pole contactor In=16 A.
2.23.7. Calculation line: CHLORINATION
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 250 W.
Calculation power: 250 W.
πΌ =250
400 Β· β3 Β· 0,8 Β· 1= 0,45 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,02ΒΊC
π(ππππ‘πππ) =20Β·250
51,51Β·400Β·2,5Β·1= 0,1π = 0,02%
π(π‘ππ‘ππ)=1,08% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
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Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
Switching element
Four pole contactor In=16 A.
2.23.8. Calculation line: AEROTHERM
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m; R:1;
Power to install: 5.000 W.
Calculation power (according to ITC BT-47):
π = 100π₯1,25 + 4.900 = 5.025 π
πΌ =5.025
400 Β· β3 Β· 0,8 Β· 1= 9,07 π΄
We try unipolar conductors 4x6+TTx6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 32 A.
Outer tube diameter: 25 mm.
Tension fall:
Cable temperature: 42,41ΒΊC
π(ππππ‘πππ) =25Β·5.025
51,07Β·400Β·6Β·1= 1,02π = 0,26%
π(π‘ππ‘ππ)=1,31% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=25 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=300 mA. AC class.
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2.23.9. Calculation line: RESISTANCE TANK
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 20 m; Cos π: 01; Xu: 0 mΞ©/m;
Power to install: 3.000 W.
Calculation power: 3.000 W.
πΌ =3.000
400 Β· β3 Β· 1= 4,33π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41,64ΒΊC
π(ππππ‘πππ) =20Β·3.000
51,21Β·400Β·2,5= 1,17π = 0,29%
π(π‘ππ‘ππ)=1,35% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
Switching element
Four pole contactor In=16 A.
2.23.10. Bus Bar calculations: SP-FIREPROT
Data
Metal: Cu.
State of the plates: Bare.
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Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 24 mm2.
Amplitude: 12 mm.
Thickness: 2 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,048 ; 0,0288 ; 0,008; 0,0008.
I. admissible of the bus bar: 110 A.
a) Electrodynamic calculation
ππππ₯ =2,1
2 Β· 252
60 Β· 10 Β· 0,008 Β· 1= 573,26 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 21,99 π΄
πΌπππ = 110 π΄
c) Check for thermal request in short circuit
πΌπππ = 2,1 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 24
1000 Β· β0,5= 5,57 ππ΄
2.24. Sub-panel SP-VENTILATION
2.24.1. Power demand
-Total installed power:
CONTROL VENTILATION 200 W
EXTRACT01 2.400 W
EXTRACT02 2.400 W
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EXTRACT03 2.400 W
EXTRACT04 2.400 W
EXTRACT05 2.400 W
EXTRACT06 2.400 W
BACKUP 1 W
BACKUP 1 W
BACKUP 1 W
2.24.2. Calculation line: CONTROL VENTILATION
Service Voltage: 230 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 10 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 200 W.
Calculation power: 200 W
πΌ =200
230 Β· 0,8= 1,09 π΄
We try two pole conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 33A.
Tension fall:
Cable temperature: 40,05ΒΊC
π(ππππ‘πππ) =10Β·200
51,51Β·230Β·2,5= 0,14 π = 0,06%
π(π‘ππ‘ππ)=0,76% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
Differential protection:
Two pole differential switch I=25 A. Sens. I=30 mA. AC class.
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2.24.3. Calculation line: EXTRACT01
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 95 m; Cos π: 0,8; Xu: 0 mΞ©/m; R:1;
Power to install: 2.400 W.
Calculation power (according to ITC BT-47):
π = 2.400 Β· 1,25 = 3.000 π
πΌ =3.000
β3 Β· 400 Β· 0,8= 5,41 π΄
We try four pole conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 26,5A.
Tension fall:
Cable temperature: 42,09ΒΊC
π(ππππ‘πππ) =95Β·3.000
51,13Β·400Β·2,5= 5,57 π = 1,39%
π(π‘ππ‘ππ)=2,09% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A
Differential protection:
Four pole differential switch I=25 A. Sens. I=300 mA. AC class.
Switching element
Four pole contactor In=16 A.
2.24.4. Calculation line: EXTRACT02
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 95 m; Cos π: 0,8; Xu: 0 mΞ©/m; R:1;
Power to install: 2.400 W.
Calculation power (according to ITC BT-47):
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π = 2.400 Β· 1,25 = 3.000 π
πΌ =3.000
β3 Β· 400 Β· 0,8= 5,41 π΄
We try four pole conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 26,5A.
Tension fall:
Cable temperature: 42,09ΒΊC
π(ππππ‘πππ) =95Β·3.000
51,13Β·400Β·2,5= 5,57 π = 1,39%
π(π‘ππ‘ππ)=2,09% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A
Differential protection:
Four pole differential switch I=25 A. Sens. I=300 mA. AC class.
Switching element
Four pole contactor In=16 A.
2.24.5. Calculation line: EXTRACT03
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 95 m; Cos π: 0,8; Xu: 0 mΞ©/m; R:1;
Power to install: 2.400 W.
Calculation power (according to ITC BT-47):
π = 2.400 Β· 1,25 = 3.000 π
πΌ =3.000
β3 Β· 400 Β· 0,8= 5,41 π΄
We try four pole conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
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According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 26,5A.
Tension fall:
Cable temperature: 42,09ΒΊC
π(ππππ‘πππ) =95Β·3.000
51,13Β·400Β·2,5= 5,57 π = 1,39%
π(π‘ππ‘ππ)=2,09% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A
Differential protection:
Four pole differential switch I=25 A. Sens. I=300 mA. AC class.
Switching element
Four pole contactor In=16 A.
2.24.6. Calculation line: EXTRACT04
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 95 m; Cos π: 0,8; Xu: 0 mΞ©/m; R:1;
Power to install: 2.400 W.
Calculation power (according to ITC BT-47):
π = 2.400 Β· 1,25 = 3.000 π
πΌ =3.000
β3 Β· 400 Β· 0,8= 5,41 π΄
We try four pole conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 26,5A.
Tension fall:
Cable temperature: 42,09ΒΊC
π(ππππ‘πππ) =95Β·3.000
51,13Β·400Β·2,5= 5,57 π = 1,39%
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π(π‘ππ‘ππ)=2,09% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A
Differential protection:
Four pole differential switch I=25 A. Sens. I=300 mA. AC class.
Switching element
Four pole contactor In=16 A.
2.24.7. Calculation line: EXTRACT05
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 95 m; Cos π: 0,8; Xu: 0 mΞ©/m; R:1;
Power to install: 2.400 W.
Calculation power (according to ITC BT-47):
π = 2.400 Β· 1,25 = 3.000 π
πΌ =3.000
β3 Β· 400 Β· 0,8= 5,41 π΄
We try four pole conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 26,5A.
Tension fall:
Cable temperature: 42,09ΒΊC
π(ππππ‘πππ) =95Β·3.000
51,13Β·400Β·2,5= 5,57 π = 1,39%
π(π‘ππ‘ππ)=2,09% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A
Differential protection:
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Four pole differential switch I=25 A. Sens. I=300 mA. AC class.
Switching element
Four pole contactor In=16 A.
2.24.8. Calculation line: EXTRACT06
Service Voltage: 400 V.
Canalization: E-Unip. or Mult. Supports.
Longitude: 95 m; Cos π: 0,8; Xu: 0 mΞ©/m; R:1;
Power to install: 2.400 W.
Calculation power (according to ITC BT-47):
π = 2.400 Β· 1,25 = 3.000 π
πΌ =3.000
β3 Β· 400 Β· 0,8= 5,41 π΄
We try four pole conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 26,5A.
Tension fall:
Cable temperature: 42,09ΒΊC
π(ππππ‘πππ) =95Β·3.000
51,13Β·400Β·2,5= 5,57 π = 1,39%
π(π‘ππ‘ππ)=2,09% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A
Differential protection:
Four pole differential switch I=25 A. Sens. I=300 mA. AC class.
Switching element
Four pole contactor In=16 A.
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2.24.9. Calculation line: BACKUP
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 45 m; Cos π: 0,8; Xu: 0 mΞ©/m; R:1;
Power to install: 1 W.
π = 1 π
πΌ =1
400 Β· β3 Β· 0,8 Β· 1= 0 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40ΒΊC
π(ππππ‘πππ) =45Β·1
51,52Β·400Β·2,5= 0π = 0%
π(π‘ππ‘ππ)=1,53% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
Switching element
Four pole contactor In=16 A.
2.24.10. Calculation line: BACKUP
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 45 m; Cos π: 0,8; Xu: 0 mΞ©/m; R:1;
Power to install: 1 W.
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π = 1 π
πΌ =1
400 Β· β3 Β· 0,8 Β· 1= 0 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40ΒΊC
π(ππππ‘πππ) =45Β·1
51,52Β·400Β·2,5= 0π = 0%
π(π‘ππ‘ππ)=1,53% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
Switching element
Four pole contactor In=16 A.
2.24.11. Calculation line: BACKUP
Service Voltage: 400 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 45 m; Cos π: 0,8; Xu: 0 mΞ©/m; R:1;
Power to install: 1 W.
π = 1 π
πΌ =1
400 Β· β3 Β· 0,8 Β· 1= 0 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
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266
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5 A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40ΒΊC
π(ππππ‘πππ) =45Β·1
51,52Β·400Β·2,5= 0π = 0%
π(π‘ππ‘ππ)=1,53% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
Switching element
Four pole contactor In=16 A.
2.24.12. Bus Bar calculations: SP-VENTILATION
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 45 mm2.
Amplitude: 15 mm.
Thickness: 3 mm.
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Wx, Ix, Wi, li (cm3, cm4): 0,112 ; 0,084 ; 0,022; 0,003.
I. admissible of the bus bar: 170 A.
a) Electrodynamic calculation
ππππ₯ =4,43
2 Β· 252
60 Β· 10 Β· 0,022 Β· 1= 1.072,742 β€ 929,057
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 16,89 π΄
πΌπππ = 170 π΄
c) Check for thermal request in short circuit
πΌπππ = 4,43 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 45
1000 Β· β0,5= 10,44 ππ΄
2.25. Sub-panel SP-LIGHTING
2.25.1. Power demand
-Total installed power:
LT01 1.880 W
LT03 1.880 W
EMERGENCY01 150 W
LT02 1.880 W
LT04 940 W
LT06 222 W
LT05 1.385 W
LT11 762 W
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LT07 1.504 W
LT09 1.504 W
EMERGENCY02 150 W
LT12 1.397 W
LT13 1.397 W
LT14 376 W
LT08 1.504 W
LT10 752 W
DALI 2.000 W
2.25.2. Calculation line: LIGHTING1
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 3.910 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-44):
π = 3.910 π
πΌ =3.910
230= 17 π΄
We try unipolar conductors 2x10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 54 A.
Tension fall:
Cable temperature: 42,97ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·3.910
50,97Β·230Β·10= 0,02π = 0,01%
π(π‘ππ‘ππ)=0,96% maximum admissible 4,5%
Differential protection:
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Two pole differential switch I=63 A. Sens. I=30 mA. AC class.
2.25.3. Calculation line: LT01
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 50 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 1.880 W.
Calculation power (according to ITC BT-44):
π = 1.880 π
πΌ =1.880
230= 8,17 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 46,32ΒΊC
π(ππππ‘πππ) =2Β·50Β·1.880
50,36Β·230Β·2,5= 6,49 π = 2,82%
π(π‘ππ‘ππ)=3,78% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.25.4. Calculation line: LT03
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 40 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 1.880 W.
Calculation power (according to ITC BT-44):
π = 1.880 π
πΌ =1.880
230= 8,17 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
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Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 46,32ΒΊC
π(ππππ‘πππ) =2Β·40Β·1.880
50,36Β·230Β·2,5= 5,19 π = 2,26%
π(π‘ππ‘ππ)=3,22% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.25.5. Calculation line: EMERGENCY01
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 40 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 150 W.
Calculation power (according to ITC BT-44):
π = 150 π
πΌ =150
230= 0,65 π΄
We try two pole conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 16,5 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,08ΒΊC
π(ππππ‘πππ) =2Β·40Β·150
51,5Β·230Β·1,5= 0,68π = 0,29%
π(π‘ππ‘ππ)=1,25% maximum admissible 4,5%
Thermic protection:
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Two pole magnetothermic switch I=10 A.
2.25.6. Calculation line: LIGHTING2
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 3.042 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-44):
π = 3.042 π
πΌ =3.042
230= 13,23 π΄
We try unipolar conductors 2x10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 54 A.
Tension fall:
Cable temperature: 41,8ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·3.042
51,18Β·230Β·10= 0,02π = 0,01%
π(π‘ππ‘ππ)=0,96% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=63 A. Sens. I=30 mA. AC class.
2.25.7. Calculation line: LT02
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 40 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 1.880 W.
Calculation power (according to ITC BT-44):
π = 1.880 π
πΌ =1.880
230= 8,17 π΄
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We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 46,32ΒΊC
π(ππππ‘πππ) =2Β·40Β·1.880
50,36Β·230Β·2,5= 5,19 π = 2,26%
π(π‘ππ‘ππ)=3,21% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.25.8. Calculation line: LT04
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 40 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 940 W.
Calculation power (according to ITC BT-44):
π = 940 π
πΌ =940
230= 4,09 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41,58ΒΊC
π(ππππ‘πππ) =2Β·40Β·940
51,22Β·230Β·2,5= 2,55 π = 1,11%
π(π‘ππ‘ππ)=2,07% maximum admissible 4,5%
Thermic protection:
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Two pole magnetothermic switch I=16 A
2.25.9. Calculation line: LT06
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 40 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 222 W.
Calculation power (according to ITC BT-44):
π = 222 π
πΌ =222
230= 0,97 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,09ΒΊC
π(ππππ‘πππ) =2Β·40Β·222
51,5Β·230Β·2,5= 0,6 π = 0,26%
π(π‘ππ‘ππ)=1,22% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.25.10. Calculation line: LIGHTING3
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 2.147 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-44):
π = 2.147 π
πΌ =2.147
230= 9,33 π΄
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We try unipolar conductors 2x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Tension fall:
Cable temperature: 41,63ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·2.147
51,21Β·230Β·6= 0,02π = 0,01%
π(π‘ππ‘ππ)=0,96% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.25.11. Calculation line: LT05
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 50 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 1.385 W.
Calculation power (according to ITC BT-44):
π = 1.385 π
πΌ =1.385
230= 6,02 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 43,43ΒΊC
π(ππππ‘πππ) =2Β·50Β·1.385
50,88Β·230Β·2,5= 4,73 π = 2,06%
π(π‘ππ‘ππ)=3,02% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
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2.25.12. Calculation line: LT11
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 60 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 762 W.
Calculation power (according to ITC BT-44):
π = 762 π
πΌ =762
230= 3,31 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41,04ΒΊC
π(ππππ‘πππ) =2Β·60Β·762
51,32Β·230Β·2,5= 3,1 π = 1,35%
π(π‘ππ‘ππ)=2,3% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.25.13. Calculation line: LIGHTING4
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 3.158 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-44):
π = 3.158 π
πΌ =3.158
230= 13,73 π΄
We try unipolar conductors 2x10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
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According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 54 A.
Tension fall:
Cable temperature: 41,94ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·3.158
51,16Β·230Β·10= 0,02π = 0,01%
π(π‘ππ‘ππ)=0,96% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=63 A. Sens. I=30 mA. AC class.
2.25.14. Calculation line: LT07
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 50 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 1.504 W.
Calculation power (according to ITC BT-44):
π = 1.504 π
πΌ =1.504
230= 6,54 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,04ΒΊC
π(ππππ‘πππ) =2Β·50Β·1.504
50,77Β·230Β·2,5= 5,15 π = 2,24%
π(π‘ππ‘ππ)=3,2% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
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2.25.15. Calculation line: LT09
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 50 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 1.504 W.
Calculation power (according to ITC BT-44):
π = 1.504 π
πΌ =1.504
230= 6,54 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,04ΒΊC
π(ππππ‘πππ) =2Β·50Β·1.504
50,77Β·230Β·2,5= 5,15 π = 2,24%
π(π‘ππ‘ππ)=3,2% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.25.16. Calculation line: EMERGENCY02
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 60 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 150 W.
Calculation power (according to ITC BT-44):
π = 150 π
πΌ =150
230= 0,65 π΄
We try two pole conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
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According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 16,5 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,08ΒΊC
π(ππππ‘πππ) =2Β·60Β·150
51,5Β·230Β·1,5= 1,01π = 0,44%
π(π‘ππ‘ππ)=1,4% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.25.17. Calculation line: LIGHTING5
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 3.170 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-44):
π = 3.170 π
πΌ =3.170
230= 13,78 π΄
We try unipolar conductors 2x10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 54 A.
Tension fall:
Cable temperature: 41,95ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·3.170
51,15Β·230Β·10= 0,02π = 0,01%
π(π‘ππ‘ππ)=0,96% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=63 A. Sens. I=30 mA. AC class.
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2.25.18. Calculation line: LT12
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 50 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 1.397 W.
Calculation power (according to ITC BT-44):
π = 1.397 π
πΌ =1.397
230= 6,07 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 43,49ΒΊC
π(ππππ‘πππ) =2Β·50Β·1.397
50,87Β·230Β·2,5= 4,78 π = 2,08%
π(π‘ππ‘ππ)=3,03% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
Switching element
Two pole contactor In=16 A.
2.25.19. Calculation line: LT13
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
Longitude: 50 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 1.397 W.
Calculation power (according to ITC BT-44):
π = 1.397 π
πΌ =1.397
230= 6,07 π΄
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We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 43,49ΒΊC
π(ππππ‘πππ) =2Β·50Β·1.397
50,87Β·230Β·2,5= 4,78 π = 2,08%
π(π‘ππ‘ππ)=3,03% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
Switching element
Two pole contactor In=16 A.
2.25.20. Calculation line: LT14
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in.
Longitude: 80 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 376 W.
Calculation power (according to ITC BT-44):
π = 376 π
πΌ =376
230= 1,63 π΄
We try two pole conductors 2x6+TTX6mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 53A.
Outer tube diameter: 50 mm.
Tension fall:
Cable temperature: 40,05ΒΊC
π(ππππ‘πππ) =2Β·80Β·376
51,51Β·230Β·6= 0,85 π = 0,37%
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π(π‘ππ‘ππ)=1,32% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=16 A.
Switching element
Two pole contactor In=16 A.
2.25.21. Calculation line: LIGHTING6
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 2.256 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-44):
π = 2.256 π
πΌ =2.256
230= 12,26 π΄
We try unipolar conductors 2x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Tension fall:
Cable temperature: 42,82ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·2.256
50,99Β·230Β·6= 0,02π = 0,01%
π(π‘ππ‘ππ)=0,96% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.25.22. Calculation line: LT08
Service Voltage: 230 V.
Canalization: B2-Mult. Superficial tube or Built-in
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Longitude: 50 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 1.504 W.
Calculation power (according to ITC BT-44):
π = 1.504 π
πΌ =1.504
230= 6,54 π΄
We try two pole conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,04ΒΊC
π(ππππ‘πππ) =2Β·50Β·1.504
50,77Β·230Β·2,5= 5,15 π = 2,24%
π(π‘ππ‘ππ)=3,2% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.25.23. Calculation line: LT10
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 40 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 752 W.
Calculation power (according to ITC BT-44):
π = 752 π
πΌ =752
230= 3,27 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
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Cable temperature: 40,73ΒΊC
π(ππππ‘πππ) =2Β·40Β·752
51,38Β·230Β·2,5= 2,04 π = 0,89%
π(π‘ππ‘ππ)=1,84% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.25.24. Calculation line: DALI
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 10 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 2.000 W.
Calculation power: π = 2.000 π
πΌ =2.000
230= 10,87 π΄
We try unipolar conductors 2x2,5+TTX2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 48,04ΒΊC
π(ππππ‘πππ) =2Β·10Β·2.000
50,05Β·230Β·2,5= 1,39 π = 0,6%
π(π‘ππ‘ππ)=1,55% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
Differential protection:
Two pole differential switch I=25 A. Sens. I=30 mA. AC class.
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2.25.25. Bus Bar calculations: SP-LIGHTING
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 24 mm2.
Amplitude: 12 mm.
Thickness: 2 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,048 ; 0,0288 ; 0,008; 0,0008.
I. admissible of the bus bar: 110 A.
a) Electrodynamic calculation
ππππ₯ =2,1
2 Β· 252
60 Β· 10 Β· 0,008 Β· 1= 573,26 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 14,21 π΄
πΌπππ = 110 π΄
c) Check for thermal request in short circuit
πΌπππ = 2,1 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 24
1000 Β· β0,5= 5,57 ππ΄
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2.26. Sub-panel SP-DINING
2.26.1. Power demand
-Total installed power:
LT01 279 W
EMERGENCY 50 W
SEM01 1.500 W
SEM02 1.500 W
CPLUGS 600 W
DOOR 600 W
2.26.2. Calculation line: DINING 1
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 329 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-44):
π = 329 Β· 1,8 = 592,2 π
πΌ =592,2
230 Β· 0,8= 3,22 π΄
We try unipolar conductors 2x2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23 A.
Tension fall:
Cable temperature: 40,59ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·592,2
51,41Β·230Β·2,5= 0,01π = 0,01%
π(π‘ππ‘ππ)=0,91% maximum admissible 4,5%
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Differential protection:
Two pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.26.3. Calculation line: LT01
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 279 W.
Calculation power (according to ITC BT-44):
π = 279 Β· 1,8 = 502,2 π
πΌ =502,2
230= 2,18 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,64ΒΊC
π(ππππ‘πππ) =2Β·15Β·502,2
51,4Β·230Β·1,5= 0,85 π = 0,37%
π(π‘ππ‘ππ)=1,28% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A
2.26.4. Calculation line: EMERGENCY
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 15 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 50 W.
Calculation power (according to ITC BT-44):
π = 50 Β· 1,8 = 90 π
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πΌ =90
230= 0,39 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,02ΒΊC
π(ππππ‘πππ) =2Β·15Β·90
51,51Β·230Β·1,5= 0,15π = 0,07%
π(π‘ππ‘ππ)=0,98% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.26.5. Calculation line: DINING 2
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 3.000 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-44):
π = 3.000 π
πΌ =3.000
230 Β· 0,8= 16,3 π΄
We try unipolar conductors 2x2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 23 A.
Tension fall:
Cable temperature: 55,8ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·3.000
48,84Β·230Β·2,5= 0,06π = 0,03%
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π(π‘ππ‘ππ)=0,93% maximum admissible 4,5%
Differential protection:
Two pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.26.6. Calculation line: SEM01
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.500 W.
Calculation power: 1.500 W
πΌ =1.500
230 Β· 0,8= 8,15 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,52ΒΊC
π(ππππ‘πππ) =2Β·15Β·1.500
50,68Β·230Β·2,5= 1,54 π = 0,67%
π(π‘ππ‘ππ)=1,6% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.26.7. Calculation line: SEM02
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.500 W.
Calculation power: 1.500 W
πΌ =1.500
230 Β· 0,8= 8,15 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
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According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 44,52ΒΊC
π(ππππ‘πππ) =2Β·15Β·1.500
50,68Β·230Β·2,5= 1,54 π = 0,67%
π(π‘ππ‘ππ)=1,6% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
2.26.8. Calculation line: CPLUGS
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 25 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 600 W.
Calculation power: 600 W
πΌ =600
230 Β· 0,8= 3,26 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,72ΒΊC
π(ππππ‘πππ) =2Β·25Β·600
51,38Β·230Β·2,5= 1,02 π = 0,44%
π(π‘ππ‘ππ)=1,35% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
Differential protection:
Two pole differential switch I=25 A. Sens. I=30 mA. AC class.
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2.26.9. Calculation line: DOOR
Service Voltage: 230 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m; R:1;
Power to install: 600 W.
Calculation power (according to ITC BT-47):
π = 600 Β· 1,25 = 750 π
πΌ =750
230 Β· 0,8= 4,08 π΄
We try unipolar conductors 2x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 21A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41,13ΒΊC
π(ππππ‘πππ) =2Β·15Β·750
51,31Β·230Β·2,5= 0,76 π = 0,33%
π(π‘ππ‘ππ)=1,24% maximum admissible 6,5%
Thermic protection:
Two pole magnetothermic switch I=16 A
Differential protection:
Two pole differential switch I=25 A. Sens. I=30 mA. AC class.
2.26.10. Bus Bar calculations: SP-DINING
Data
Metal: Cu.
State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
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Section: 24 mm2.
Amplitude: 12 mm.
Thickness: 2 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,048 ; 0,0288 ; 0,008; 0,0008.
I. admissible of the bus bar: 110 A.
a) Electrodynamic calculation
ππππ₯ =0,62
2 Β· 252
60 Β· 10 Β· 0,008 Β· 1= 50,768 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 4,59 π΄
πΌπππ = 110 π΄
c) Check for thermal request in short circuit
πΌπππ = 0,62 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 24
1000 Β· β0,5= 5,57 ππ΄
2.27. Sub-panel SP-DYE
2.27.1. Power demand
-Total installed power:
DISP01 300 W
AGI01 750 W
COM01 2.400 W
AIR01 1.500 W
LIFT01 367 W
AGI02 367 W
SERBOX 2.000 W
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LT01 863 W
LT02 863 W
LT03 863 W
EMERGENCY 50 W
2.27.2. Calculation line: DYE 1
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 1.050 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-47):
π = 750 Β· 1,25 + 300 = 1.237,5 π
πΌ =1.237,5
0,8 Β· 400 Β· β3= 2,23 π΄
We try unipolar conductors 4x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 36 A.
Tension fall:
Cable temperature: 40,12ΒΊC
π(ππππ‘πππ) =0,3Β·1.237,5
51,51Β·400Β·6= 0 π = 0%
π(π‘ππ‘ππ)=1,4% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.27.3. Calculation line: DISP01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
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Power to install: 300 W.
Calculation power (according to ITC BT-47):
π = 300 Β· 1,25 = 375 π
πΌ =375
0,8 Β· 400 Β· β3 Β· 1= 0,68 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,04ΒΊC
π(ππππ‘πππ) =15Β·375
51,51Β·400Β·2,5= 0,11 π = 0,03%
π(π‘ππ‘ππ)=1,43% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.27.4. Calculation line: AGI01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 750 W.
Calculation power (according to ITC BT-47):
π = 750 Β· 1,25 = 937,5 π
πΌ =937,5
0,8 Β· 400 Β· β3 Β· 1= 1,69 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
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Cable temperature: 40,25ΒΊC
π(ππππ‘πππ) =15Β·937,5
51,47Β·400Β·2,5= 0,27 π = 0,07%
π(π‘ππ‘ππ)=1,47% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.27.5. Calculation line: COM01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 2.400 W.
Calculation power (according to ITC BT-47):
π = 2.400 Β· 1,25 = 3.000 π
πΌ =3.000
0,8 Β· 400 Β· β3 Β· 1= 5,41 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 42,57ΒΊC
π(ππππ‘πππ) =15Β·3.000
51,04Β·400Β·2,5= 0,88 π = 0,22%
π(π‘ππ‘ππ)=1,62% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
Differential protection:
Four pole differential switch I=25 A. Sens. I=30 mA. AC class.
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2.27.6. Calculation line: DYE 2
Service Voltage: 400 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.234 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-47):
π = 1.500 Β· 1,25 + 734 = 2.609 π
πΌ =2.609
0,8 Β· 400 Β· β3= 4,71 π΄
We try unipolar conductors 4x10mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 50 A.
Tension fall:
Cable temperature: 40,27ΒΊC
π(ππππ‘πππ) =0,3Β·2.609
51,47Β·400Β·10= 0 π = 0%
π(π‘ππ‘ππ)=1,4% maximum admissible 4,5%
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.27.7. Calculation line: AIR01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m; R: 1;
Power to install: 1.500 W.
Calculation power (according to ITC BT-47):
π = 1.500 Β· 1,25 = 1.875 π
πΌ =1.875
0,8 Β· 400 Β· β3 Β· 1= 3,38 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
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Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 41ΒΊC
π(ππππ‘πππ) =15Β·1.875
51,33Β·400Β·2,5= 0,55 π = 0,14%
π(π‘ππ‘ππ)=1,54% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.27.8. Calculation line: LIFT01
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 367 W.
Calculation power:367 π
πΌ =367
0,8 Β· 400 Β· β3= 0,66 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,04ΒΊC
π(ππππ‘πππ) =20Β·367
51,51Β·400Β·2,5= 0,14 π = 0,04%
π(π‘ππ‘ππ)=1,44% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
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2.27.9. Calculation line: AGI02
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 15 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 367 W.
Calculation power:367 π
πΌ =367
0,8 Β· 400 Β· β3= 0,66 π΄
We try unipolar conductors 4x2,5+TTx2,5mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 18,5A.
Outer tube diameter: 20 mm.
Tension fall:
Cable temperature: 40,04ΒΊC
π(ππππ‘πππ) =15Β·367
51,51Β·400Β·2,5= 0,11 π = 0,03%
π(π‘ππ‘ππ)=1,44% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=16 A.
2.27.10. Calculation line: SERBOX
Service Voltage: 400 V.
Canalization: B1-Unip. Superficial tube or Built-in.
Longitude: 20 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.000 W.
Calculation power:2.000 π
πΌ =2.000
0,8 Β· 400 Β· β3= 3,61 π΄
We try unipolar conductors 4x10+TTx10mm2 Cu
Level of insulation: 0,6/1 kV, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 44A.
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Outer tube diameter: 32 mm.
Tension fall:
Cable temperature: 40,2ΒΊC
π(ππππ‘πππ) =20Β·2.000
51,48Β·400Β·10= 0,19 π = 0,05%
π(π‘ππ‘ππ)=1,45% maximum admissible 6,5%
Thermic protection:
Four pole magnetothermic switch I=40 A.
Differential protection:
Four pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.27.11. Calculation line: DYE 3
Service Voltage: 230 V.
Canalization: C-Unip. or Mult. on wall.
Longitude: 0,3 m; Cos π: 0,8; Xu: 0 mΞ©/m;
Power to install: 2.639 W.
Simultaneity factor: 1.
Calculation power (according to ITC BT-44):
π = 2.679 π
πΌ =2.679
230 Β· 0,8= 14,56π΄
We try unipolar conductors 2x6mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 40 A.
Tension fall:
Cable temperature: 43,97ΒΊC
π(ππππ‘πππ) =2Β·0,3Β·2.679
50,78Β·230Β·6= 0,02π = 0,01%
π(π‘ππ‘ππ)=1,41% maximum admissible 4,5%
Differential protection:
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Two pole differential switch I=40 A. Sens. I=30 mA. AC class.
2.27.12. Calculation line: LT01
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 15 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 863 W.
Calculation power (according to ITC BT-44):
π = 863 π
πΌ =863
230= 3,75 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 41,88ΒΊC
π(ππππ‘πππ) =2Β·15Β·863
51,17Β·230Β·1,5= 1,47π = 0,64%
π(π‘ππ‘ππ)=2,05% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.27.13. Calculation line: LT02
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 20 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 863 W.
Calculation power (according to ITC BT-44):
π = 863 π
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πΌ =863
230= 3,75 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 41,88ΒΊC
π(ππππ‘πππ) =2Β·20Β·863
51,17Β·230Β·1,5= 1,96π = 0,85%
π(π‘ππ‘ππ)=2,26% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.27.14. Calculation line: LT03
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 20 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 863 W.
Calculation power (according to ITC BT-44):
π = 863 π
πΌ =863
230= 3,75 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 41,88ΒΊC
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π(ππππ‘πππ) =2Β·20Β·863
51,17Β·230Β·1,5= 1,96π = 0,85%
π(π‘ππ‘ππ)=2,26% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.27.15. Calculation line: EMERGENCY
Service Voltage: 230 V.
Canalization: B1-Unip. tube superf. or Built-in.
Longitude: 20 m; Cos π: 1; Xu: 0 mΞ©/m;
Power to install: 50 W.
Calculation power (according to ITC BT-44):
π = 50 Β· 1,8 = 90 π
πΌ =90
230= 0,39 π΄
We try unipolar conductors 2x1,5+TTx1,5mm2 Cu
Level of insulation: 0,6/1 V, XPLE. Designed: UNE: RZ1-K (AS).
According to ITC BT-19 the maximum current admissible of the selected conductors at 40ΒΊC
is 15 A.
Outer tube diameter: 16 mm.
Tension fall:
Cable temperature: 40,02ΒΊC
π(ππππ‘πππ) =2Β·20Β·90
51,51Β·230Β·1,5= 0,2π = 0,09%
π(π‘ππ‘ππ)=1,5% maximum admissible 4,5%
Thermic protection:
Two pole magnetothermic switch I=10 A.
2.27.16. Bus Bar calculations: SP-DYE
Data
Metal: Cu.
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State of the plates: Bare.
Number of plates per phase: 1.
Distance between plates: d=10 cm.
Distance between supports: L=25 cm.
Short circuit time: 0,5 s.
Used plate
Section: 24 mm2.
Amplitude: 12 mm.
Thickness: 2 mm.
Wx, Ix, Wi, li (cm3, cm4): 0,048 ; 0,0288 ; 0,008; 0,0008.
I. admissible of the bus bar: 110 A.
a) Electrodynamic calculation
ππππ₯ =0,62
2 Β· 252
60 Β· 10 Β· 0,008 Β· 1= 50,768 β€ 1200
ππ
ππ2 πΆπ’
b) Thermal calculation per admissible current
πΌπππ = 10,43 π΄
πΌπππ = 110 π΄
c) Check for thermal request in short circuit
πΌπππ = 0,62 ππ΄
πΌππππ =πΎπ Β· π
1000 Β· βπ‘ππ
=164 Β· 24
1000 Β· β0,5= 5,57 ππ΄
2.28. GROUNDING CALCULATION
We consider that the land resistance is 300 Ξ©xm.
The electrode selected for the grounding are copper spades. It will be 10 spades around the
building. A naked copper conductor will join them all together to from an equipotential
bonding ring.
The spikes depth will be 2 meters.
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To measure the ground resistance, is used the ground breaking box, that separates the spikes
and the protection conductors.
The protection conductors have been calculated according to ITC-BT-18.
π π =1
πΏπ2 Β· π +
πΏπ
π +π
0,8 Β· π
=1
1002 Β· 300 +
20300
= 4,28 Ξ©
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