100mva design details

100MVA Design details.TXT

\\TW0513\C:\TDS Designs\data\ELTAS1\Turkey full design 100mva\Turkeyfull design 100mva.TDS Number of Library Designs 2 Engine created Design ID= 1-Library Design 1 Design 1

General details-----------------------------------------------------------------------------------------------------------------

---------Document----------File : :\\TW0513\C:\TDS Designs\data\ELTAS1\Turkey full design 100mva\Turkey full design 100mva.TDSDesign Name: :Engine created Design ID= 1-Library Design 1---------Input Data---------Type of Transformer :Separate windingNumber of Terminals :2Number of Phases :3Over Exciting Ability :5%Frequency :50Cooling Type :ONAN/ONAFThree Phase Nominal Power of Terminal HV :80\100 [MVA]Three Phase Nominal Power of Terminal LV :80\100 [MVA]Three Phase Line Voltage of Terminal HV :154 [KV]Three Phase Line Voltage of Terminal LV :33.6 [KV]Voltage Regulation Range in Terminal HV :-12*1.25% , +12*1.25% Voltage Regulation Range in Terminal LV :-0*0% , +0*0% Tap Changer Connected to Terminal :HVType of Tap Changer : :ON LOAD Tap Changer Class : :coarse

Tap Changer Name : :14273G

Three Phase Connection Vector Group : :Ynyn0Ambient Temperature : :45 [`C]Guaranty Temperature Rise for OIL :55 [`K]Guaranty Temprature Rise for HV :60 [`K]Guaranty Temperature Rise for LV :60 [`K]Guaranty Hot Spot Rise for HV :75 [`K]Guaranty Hot Spot Rise for LV :75 [`K]Insulation Levels : UM Power Frequency Lightning impulse LV 36 70 145

100MVA Design details.TXT HV 170 230 550 Installation Above Sea Level: :1000 [M]Ambient Pollution : :Medium

Tank Inner Shielding : :YesTank Inner Shield Type : :Parallel---------Core---------Core Sheet Type :10530Core Press Form :Press plateCore Form :30Sort of Core Pockets :smallCore Channels Width :6Core Lamination :Step lapNumber of Core Cooling Channels :2Cooling Channels Position : AK1 :136.0 AK2 :0.0 AK3 :0.0 Core Temperature Rise to Oil : Part1 :26.4 Part2 :20.2 Part3 :0.0 Special Active Losses [W/KG]: Limb :1.27 Yoke :1.27 R.Limb:0.00 Special Reactive Losses [VA/KG]: Limb :2.12 Yoke :2.12 R.Limb:0.00 Core Induction [Tesla]: Limb :1.75 Yoke :1.75 R.Limb:0.00 Core Losses [ KW ]: 54.42 I0 [ % ]: 0.11 With base : 80 MVA And 0% over exciting-------------------Core Pockets Size

BX(1)= 740 SX(1)= 196BX(2)= 720 SX(2)= 260BX(3)= 700 SX(3)= 310BX(4)= 680 SX(4)= 351BX(5)= 660 SX(5)= 387BX(6)= 640 SX(6)= 420BX(7)= 620 SX(7)= 449BX(8)= 600 SX(8)= 475BX(9)= 560 SX(9)= 522BX(10)= 520 SX(10)= 561BX(11)= 480 SX(11)= 596BX(12)= 440 SX(12)= 626BX(13)= 400 SX(13)= 652BX(14)= 360 SX(14)= 675BX(15)= 320 SX(15)= 695BX(16)= 280 SX(16)= 712BX(17)= 220 SX(17)= 731---------------------------Base Constants---------------------------Base Temperature for Two , Tolw calculation :95 ['k]Base Temeprature for RI2 calculation :20 ['k]Base Temperature for PK calculation :75 ['k]Conductivity of Copper in 20'C :57.7 [Sm/mm^2]Special Weight of CU :8960 [kg/m^3]

100MVA Design details.TXTSpecial Weight of Core sheets :7650 [kg/m^3]Special Weight of Fe :8000 [kg/m^3]Cost of CU :3 [$/kg]Cost of Core Sheets :1.8 [$/kg]Cost of Paper :7 [$/kg]Cost of Press Board :5 [$/kg]Capitalize Cost of P0 :3000 [$/kw]Capitalize Cost of PK :1000 [$/kw]--------------------------------Dmax--------------------------------Voltage Transfer From HV to LV in Tap Position Lower :0.11 Voltage Transfer From HV to LV in Tap Position Middle :-0.18 Voltage Transfer From HV to LV in Tap Position Upper :-0.39 --------------------------------Turns--------------------------------Turn Of Step ( Wstep ) :7Active Turn of Terminal HV In Tap Position Lower :467Active Turn of Terminal HV In Tap Position Middle :551Active Turn of Terminal HV In Tap Position Upper :635Active Turn of Terminal LV In Tap Position Lower :120Active Turn of Terminal LV In Tap Position Middle :120Active Turn of Terminal LV In Tap Position Upper :120Phisical Turn of Winding US :120Phisical Turn of Winding OS :467Phisical Turn of Winding GR :84Phisical Turn of Winding FE :84

------------------------------------------------------------------------------------------------------------------------VW DS QS Qj Qr BS BJ BR SS HF ES ESR AWF AWR Gcu Gfe TOC 161.658 765 4173 4173 0 740 740 0 731 1886 1561 0.0 40 0 16397 42879 580543

Details of Concenters-----------------------------------------------------------------------------------------------------------

Con. Win. type Category Taped Rad-Cool AX-Cool Wire type Epoxy Wire Dis.sor N.field max-Kgama max-Zmitte US Layer Main NO Yes Yes Transposed Yes D 24 1.00 14.8 OS Disk Main NO Yes Yes Flat No BCB 24 1.62 23.4 GROB Layer Tap Yes No Yes Flat No D 16 1.00 3.4 FEIN IL Tap Yes No Yes Flat No D 24 1.00 3.4 -------------------------------------------------------------------------------------------------------------------------------- Con. NSPDL NSPSL NPPDL NPPSL HSol HM DI BW AW Ibase Ib.Fac J F.F Turn AU AO Gcu US 1 1 1 1 1746 1716 809.0 108.5 22.0 1718.3 1.00 2.44 0.45 120.0 60.0 80.0 6554

100MVA Design details.TXT OS 1 1 1 1 1586 1586 1106.0 126.0 40.0 374.9 1.02 2.41 0.36 467.0 140.0 160.0 7560 GROB 1 1 1 1 1398 1382 1438.0 10.5 40.0 374.9 1.02 3.15 0.69 84.0 234.0 254.0 1222 FEIN 1 1 1 1 1254 1096 1499.0 11.0 20.0 374.9 1.02 3.78 0.69 84.0 306.0 326.0 1061 -------------------------------------------------------------------------------------------------------------------------------- Con. WA1 WR1 WA2 WR2 BA.WA PDA PDR Hot Bot NT BD HD B-Lac H-Lac Zi Zit Sz US 60.00 2.00 - - 0.00 2.0 1.00 4.50 2.36 35.00 46.43 10.16 0.14 0.15 0.80 0.10 0.20 OS 120.00 4.00 - - 13.00 1.0 8.00 8.00 2.50 1.00 3.50 8.84 0.00 0.00 1.00 0.00 0.00 GROB 84.00 1.00 - - 0.00 3.0 1.00 4.50 9.00 1.00 10.20 5.49 0.00 0.00 1.20 0.00 0.00 FEIN 84.00 1.00 - - 0.00 2.0 1.00 5.30 9.00 1.00 10.50 6.53 0.00 0.00 1.50 0.00 0.00 -------------------------------------------------------------------------------------------------------------------------------- Con. S1 Ns1 S2 Ns2 S3 Ns3 S4 Ns4 S5 Ns5 AIF RIF P.M.P P.B.P SLZ1 SLZ2 SLZ3 US 4.5 121 6.0 0 0.0 0 0.0 0 0.0 0 1 1 0 0 0 0 0 OS 4.5 103 6.0 16 0.0 0 0.0 0 0.0 0 1 1 0 0 0 0 0 GROB 0.0 254 1.5 0 0.0 0 0.0 0 0.0 0 1 1 0 0 0 0 0 FEIN 0.0 191 1.5 0 0.0 0 0.0 0 0.0 0 12 1 0 0 0 0 0 -------------------------------------------------------------------------------------------------------------------------------- Con. PAPcom PSPCom W.I.S N.I.S W.O.S N.O.S BK1 BK2 NRK NSK Ra-NM AX-NM NBoil Boil NHoil Hoil EF.BOIL US 0.84 0.93 20 48 12 48 7 7 1 1 2 4 1 15.0 121 4.50 7.33 OS 0.84 0.93 12 24 12 48 7 7 11 1 2 6 2 5.0 119 4.70 6.00 GROB 0.82 0.93 12 12 12 12 7 7 1 1 2 2 0 5.0 254 0.00 7.00 FEIN 0.82 0.93 12 48 12 48 7 7 1 1 2 2 0 5.0 191 0.00 7.00 -------------------------------------------------------------------------------------------------------------------------------- Con. CAL.FV[KN] CAL.FE[KN] ACC.FV[KN] ACC.FE[KN] SIG-FV SIG-FE NAA BAA R[Mohm] NDPS N.Make Step T.L.E.D US 0 0 223 89 5.0 2.0 24 35 8.5 0 0 Yes OS 0 0 228 91 5.0 2.0 24 35 201.3 0 0 Yes GROB 0 0 176 71 5.0 2.0 12 25 55.7 0 12 Yes FEIN 0 0 184 74 5.0 2.0 12 25 69.7 0 12 Yes


Details of Connection Modes ----------------------------------------------------------------------------------------------------

Mode2 :Tap position :MIDDLE ( HV-LV ) Uk=12.48--------------------------------------------------------------------------------------------------------------------------------

Con. Mode2 IW%-US -100.00 IW%-OS 85.00 IW%-GROB 15.00 IW%-FEIN 0.00 IW%-Sum 100.00 S-Base 100.00 Auto-FAC 1.00

Details of Load Modes ----------------------------------------------------------------------------------------------------------

Summery of Load modes----------------------

Three phase Loading Power [MVA] -------------------------------- Mode Index HV LV TW PK PZ P55

Mode2 : Cooling : ONAF Tap position : Lower 100.0<0.0 100.0<180.0 ------- 269 0 324 Mode4 : Cooling : ONAF Tap position : Middle 100.0<0.0 100.0<180.0 ------- 291 29 345

------------------------Details

Mode2 : Cooling : ONAF Tap position : LowerTransfered Power : HV Power :100<0.00 LV Power :100<180.00 Situation : Only Show in Results con. V[KV] S[MVA] I[A] K-gama PK[KW] RI^2[KW] J[A/mm^2] ZmitteR[%] ZmitteA[%] US 19.40 33.33 1.0<180.0 1.0 105.3 75.3 2.4 14.8 16.3 OS 75.58 33.33 1.2<0.0 1.0 163.9 117.6 2.8 14.4 0.0 GROB 0.00 0.00 0.0<0.0 0.0 0.0 0.0 0.0 0.0 0.0 FEIN 0.00 0.00 0.0<0.0 0.0 0.0 0.0 0.0

100MVA Design details.TXT 0.0 0.0 -------------------------------------------------------------------------------------------------------------------------------- Sum --- --- --- --- 269.2 --- --- --- --- --- --------------------------------------------------------------------------------------------------------------------------------PZ=0.0 --------------------------------------------------------------------------------------------------------------------------------

Rise to Oil Rise to Ambient Real Temp. in IEC condition ----------- ------------------------------------------ ----------------------------------------- con. Tolw Two Av.Tw Ho.Tw TOilmin TOilav. TOilmax Av.Tw Ho.Tw TOilmin TOilav. TOilmax Hot.F US 17.1 10.9 56.5 69.2 36.1 44.7 53.3 101.5 114.2 81.1 89.7 98.3 1.3 OS 20.2 9.9 55.4 67.8 36.1 46.2 56.3 100.4 112.8 81.1 91.2 101.3 1.3 GROB 0.0 0.0 45.6 55.0 36.1 36.1 36.1 90.6 100.0 81.1 81.1 81.1 1.3 FEIN 0.0 0.0 45.6 55.0 36.1 36.1 36.1 90.6 100.0 81.1 81.1 81.1 1.3 -------------------------------------------------------------------------------------------------------------------------------- Sum 18.9 --- --- --- 36.1 45.6 55.0 --- --- 81.1 90.6 100.0 --- --------------------------------------------------------------------------------------------------------------------------------Tank Dissipation losses in 55 'K [P55]=323.6

Mode4 : Cooling : ONAF Tap position : MiddleTransfered Power : HV Power :100<0.00 LV Power :100<180.00 ( load mode for Capitalize Calculation ( TOC Analize ) Situation : Show in results and use as limitation of analyze and parameter of TOC con. V[KV] S[MVA] I[A] K-gama PK[KW] RI^2[KW] J[A/mm^2] ZmitteR[%] ZmitteA[%] US 19.40 33.33 1.0<180.0 1.0 105.3 75.3 2.4 14.8 16.3 OS 75.58 28.33 1.0<0.0 1.6 127.7 85.0 2.4 23.4 2.0 GROB 13.34 5.00 1.0<0.0 1.0 29.0 23.1 3.2 3.3 0.0 FEIN 0.00 0.00 0.0<0.0 0.0 0.0 0.0 0.0 0.0 0.0 -------------------------------------------------------------------------------------------------------------------------------- Sum --- --- --- --- 262.0 --- --- --- --- --- --------------------------------------------------------------------------------

100MVA Design details.TXT------------------------------------------------PZ=28.9 --------------------------------------------------------------------------------------------------------------------------------

Rise to Oil Rise to Ambient Real Temp. in IEC condition ----------- ------------------------------------------ ----------------------------------------- con. Tolw Two Av.Tw Ho.Tw TOilmin TOilav. TOilmax Av.Tw Ho.Tw TOilmin TOilav. TOilmax Hot.F US 17.1 10.9 57.4 69.2 38.1 46.6 55.2 102.4 114.2 83.1 91.6 100.2 1.3 OS 17.4 7.7 54.2 65.0 38.1 46.8 55.4 99.2 110.0 83.1 91.8 100.4 1.3 GROB 14.7 9.8 56.4 67.8 38.1 45.4 52.7 101.4 112.8 83.1 90.4 97.7 1.3 FEIN 0.0 0.0 46.5 55.0 38.1 38.1 38.1 91.5 100.0 83.1 83.1 83.1 1.3 -------------------------------------------------------------------------------------------------------------------------------- Sum 16.9 --- --- --- 38.1 46.5 55.0 --- --- 83.1 91.5 100.0 --- --------------------------------------------------------------------------------------------------------------------------------Tank Dissipation losses in 55 'K [P55]=345.3

Details of Short Circuit Modes -----------------------------------------------------------------------------------------

Network UM Short Circuit Power Z0/Z1 HV 170 10000 2.00 LV 36 1000 2.00

Ter. Zn Base powerHV 0 0 LV 0 0 ------------------------------------------------------------Z0/Z1 of Transfer from HV to LV :1.00 Z0/Z1 of Transfer from LV to HV :1.00 ------------------------------------------------------------Impedances Between All Terminals with Base 100 MVAThe/Tap Lower Middle Upper

HV-LV 11.51 12.48 13.77 LV-HV 11.51 12.48 13.77

Maximum Production Tolerance for UK : 3------------------------------------------------------------


Details of Short circuit Condition of Transformer

Condition HV[U] LV[U] ---------------------------- ------------------------- -------------------------Cas Tap. Type S.Cin Feed ILT IPT IWT INT ILT IPT IWT INT

6 Lower 3POL LV HV -3.43 -3.43 -1601.3 0.00 13.36 13.36 1601.3 0.00 13 Lower 1POL LV HV -3.43 -3.43 -1601.3 0.00 13.36 13.36 1603.0 13.36 6 Middle 3POL LV HV -2.81 -2.81 -1549.2 0.00 12.89 12.89 1549.2 0.00 13 Middle 1POL LV HV -2.81 -2.81 -1549.2 0.00 12.89 12.89 1546.4 12.89 6 Upper 3POL LV HV -2.28 -2.28 -1448.2 0.00 12.02 12.02 1448.2 0.00 13 Upper 1POL LV HV -2.28 -2.28 -1448.2 0.00 12.02 12.02 1442.5 12.02

Condition HV[V] LV[V] ---------------------------- ------------------------- -------------------------Cas Tap. Type S.Cin Feed ILT IPT IWT INT ILT IPT IWT INT

6 Lower 3POL LV HV -3.43 -3.43 -1601.3 0.00 13.36 13.36 1601.3 0.00 13 Lower 1POL LV HV 0.00 0.00 0.0 0.00 0.00 0.00 0.0 13.36 6 Middle 3POL LV HV -2.81 -2.81 -1549.2 0.00 12.89 12.89 1549.2 0.00 13 Middle 1POL LV HV 0.00 0.00 0.0 0.00 0.00 0.00 0.0 12.89 6 Upper 3POL LV HV -2.28 -2.28 -1448.2 0.00 12.02 12.02 1448.2 0.00 13 Upper 1POL LV HV 0.00 0.00 0.0 0.00 0.00 0.00 0.0 12.02

Condition HV[W] LV[W] ---------------------------- ------------------------- -------------------------Cas Tap. Type S.Cin Feed ILT IPT IWT INT ILT IPT IWT INT

6 Lower 3POL LV HV -3.43 -3.43 -1601.3 0.00 13.36 13.36 1601.3 0.00 13 Lower 1POL LV HV 0.00 0.00 0.0 0.00 0.00 0.00 0.0 13.36

100MVA Design details.TXT6 Middle 3POL LV HV -2.81 -2.81 -1549.2 0.00 12.89 12.89 1549.2 0.00 13 Middle 1POL LV HV 0.00 0.00 0.0 0.00 0.00 0.00 0.0 12.89 6 Upper 3POL LV HV -2.28 -2.28 -1448.2 0.00 12.02 12.02 1448.2 0.00 13 Upper 1POL LV HV 0.00 0.00 0.0 0.00 0.00 0.00 0.0 12.02 ------------------------------------------------------------------------------------------------------------------------Details of Short circuit Condition of network

Condition HV[U] LV[U] ---------------------------- ------------------------- -------------------------Cas Tap. Type S.Cin Feed VLnet PLnet ILnet VLnet PLnet ILnet

6 Lower 3POL LV HV 113.7 0.0 3.43 0.0 0.0 0.00 13 Lower 1POL LV HV 108.0 0.0 3.43 0.0 0.0 0.00 6 Middle 3POL LV HV 139.9 0.0 2.81 0.0 0.0 0.00 13 Middle 1POL LV HV 135.2 0.0 2.81 0.0 0.0 0.00 6 Upper 3POL LV HV 165.7 0.0 2.28 0.0 0.0 0.00 13 Upper 1POL LV HV 161.9 0.0 2.28 0.0 0.0 0.00

Condition HV[V] LV[V] ---------------------------- ------------------------- -------------------------Cas Tap. Type S.Cin Feed VLnet PLnet ILnet VLnet PLnet ILnet

6 Lower 3POL LV HV 113.7 240.0 3.43 0.0 240.0 0.00 13 Lower 1POL LV HV 133.9 -122.1 0.00 54.5 -147.7 0.00 6 Middle 3POL LV HV 139.9 240.0 2.81 0.0 240.0 0.00 13 Middle 1POL LV HV 156.4 -121.5 0.00 55.5 -148.4 0.00 6 Upper 3POL LV HV 165.7 240.0 2.28 0.0 240.0 0.00 13 Upper 1POL LV HV 179.0 -121.1 0.00 56.1 -148.9 0.00

Condition HV[W] LV[W]

100MVA Design details.TXT---------------------------- ------------------------- -------------------------Cas Tap. Type S.Cin Feed VLnet PLnet ILnet VLnet PLnet ILnet

6 Lower 3POL LV HV 113.7 120.0 3.43 0.0 120.0 0.00 13 Lower 1POL LV HV 133.9 122.1 0.00 54.5 147.7 0.00 6 Middle 3POL LV HV 139.9 120.0 2.81 0.0 120.0 0.00 13 Middle 1POL LV HV 156.4 121.5 0.00 55.5 148.4 0.00 6 Upper 3POL LV HV 165.7 120.0 2.28 0.0 120.0 0.00 13 Upper 1POL LV HV 179.0 121.1 0.00 56.1 148.9 0.00 ------------------------------------------------------------------------------------------------------------------------Details of Short circuit Condition of Neutral of Transformer

Condition HV[N] LV[N] ---------------------------- ------------------------- -------------------------Cas Tap. Type S.Cin Feed Vneut. Pneut. Vneut. Pneut.

6 Lower 3POL LV HV 0.0 0.0 0.0 0.0 13 Lower 1POL LV HV 0.0 0.0 0.0 0.0 6 Middle 3POL LV HV 0.0 0.0 0.0 0.0 13 Middle 1POL LV HV 0.0 0.0 0.0 0.0 6 Upper 3POL LV HV 0.0 0.0 0.0 0.0 13 Upper 1POL LV HV 0.0 0.0 0.0 0.0 ------------------------------------------------------------------------------------------------------------------------

100mva design details

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