ahu - wizard mac w mfc w 201201 (2)
DESCRIPTION
1TRANSCRIPT
WIZARDTM Series
High-End Air Handling Unit MAC.W MFC.W2000-100000m3/h
Content
General Specification .........................................................................................................................................1
Mechanical Specification ....................................................................................................................................1
Model Nomenclature ..........................................................................................................................................3
Performance Data ..............................................................................................................................................4
Dimensional Data ...............................................................................................................................................7
General Specification
The technology and the manufacture skill of “WIZARD” series air handling unit are totally imported from Italy, and have been used in many project covering wide range of application fields. The “WIZARD” series unit dedicates high quality, reliability and working performance to all customers, specially assures our best service for high grade hotels, hospitals, health care institutions, manufacturing facilities, residence or other fields.
According to the European air handling unit standard: EN1886 and EN13053, the “WIZARD” series air handling unit can reach the highest or second grade in following items:
Mechanical strength of casing Class D1 Highest grade No permanent deformation Thermal bridge factor Class TB2 Second grade No condensation on the surface Thermal conductivity Class T2 Second grade Energy saving Air leakage ratio Class L2 Second grade Clean and energy saving Bypass air ratio of filter Class F9 Highest grade Clean
Mechanical Specification
Framework and Panel
●Hinge type access door, easy maitenance;●Special latch handle avoiding thermal bridge●Little unit air leakage ratio up to neoprene seal●Dedicated Insulation:
PU foam between double-wall panels (50mm); Adhesive PE isolator on all mental part (4mm).
Frame
Y-Corner Joint
The framework consists of the internal frame, external frame and the PVC insulator. All frames are made of high gauge aluminum alloy with anodize treatment. The PVC insulator is extruded to the internal and external frame avoiding thermal bridge.
The insulation material -PU foam of 50mm thickness is injected between the double-wall panels. All bolts are external-connected type, resulting in easy dismounting and maintenance. The internal corner between panels is special designed of circular surface for easy cleaning.
Frame
Y-Corner Joint
Access Door
FilterFilters are arranged at the vertical section as wide as possible and seals are equipped between filters and frames
to reduce the air leakage ratio. Different type of pre-filters, bag filters and hepa-filters could be adopted depending on different air quality requirement.
1
For each filter, the pressure gauge and auto-alarm could be used to indicate the filter working condition and assure the air quality.
For tobacco and petrochemical industry, the cartridge filter and active carbon filter are optional for high air quality requirement.
Coil,Fin and Drain Panel● The Coil is made of seamless copper tubes and hydrophilic aluminum fins, produced by
OAK assembly line. All tubes are mechanically expanded to aluminum fins tightly to minimize thermal resistance. The stainless steel and the copper tube collector are optional for high quality. Fins are sin-wave type and
● Standard coil configuration has 2/4/6/8/10-row as options. For customer’s specification, the fin interval is 1.8~2.8mm.
●The configuration of coils is optimized to meet actual conditions.● Rapid drainage design is applied to prevent condensation
accumulation and PE insulator under the pan is efficiently stopping the condensation.
Fan and Motor
●The adoption of well-known brand of DIDW, centrifugal fan and bearing ensures the static and dynamical balance level of G4.0 which greatly improves the life duration of bearing.
● Controlled by micro-computer procedure which leads to self-adjusting, so that the fan can work in high efficiency and energy saving condition.
●The fan section is mounted onto the vibration resistance frame with spring isolators or robber pads, connected to the casing with high fire resistance flexible connectors.
●Standard V-shape belt driven with taper-lock, high driven efficiency.●Well-know brand of motor with IP54 protection and class F insulation. ●The regulation device is fitted at the bottom of motors to adjust belt.
Front-curved fan Back-curved fan Direct-drive fan Voluteless fan
2
● The combination of heat recovery wheel and air condition system results in lower cost but to treat more air.
● In the process of return air discharging to outside from the upside tunnel of heat recovery wheel, the dirty air have been vented but most part of the waste heat(heat and moisture) are still reserving in the wheel. So the heat recovery wheel makes the fresh air in the downside tunnel absorbing waste heat from the return air. The fresh air could be pre-heated/cooled in winter/summer, then supplying to indoor.
●There’s no need to increase the energy consumption, but could fufill the ventilation requirment.
● The mositure can be kept without cost generation, so the system energy charge can be eliminated by 30%~65%. And the heat recovery efficiency can reach 70%~80%.
Heat Recovery Wheel
1 –MAC: air handling unit; MFC: package air handling unit2 – Air flow(*1000 m3/h)3 - “WIZARD” series4 – Unit modulus(height & width)5 - H:horizontal,V:vertical6 –Air flow outlet configuration
THF: horizontal upward,UBF: top frontward,BHF: horizontal downward,UBR: top backward7 – Water pipe connection
L:left-hand side,R:right-hand side.e.g.: MAC035W2430Hmeans “WIZARD” series horizontal air handling unit of 35,000m3/h nominal airflow rate and the unit modulus is 2430.
Mechanical Specification
Connection type The right-hand water connection is the cooling water coming from the right side while standing in front of the air-inlet side.
The left-hand water connection is water from the left side while standing in front of air-inlet side.
3
002
002.5
003
003.5
004
005
006
008
010
012.5
015
018
020
023
025
0.28
030
035
040
045
050
055
060
070
080
090
100
0710
0712
0812
0813
0913
1013
1015
1217
1417
1420
1622
1822
1824
2024
2026
2226
2228
2430
2632
2636
2836
2838
3038
3340
3640
3649
3852
620
620
700
700
780
860
860
1020
1180
1180
1340
1500
1500
1660
1660
1820
1820
1980
2140
2140
2300
2300
2460
2700
2940
2940
3100
860
1020
1020
1100
1100
1100
1260
1420
1420
1660
1820
1820
1980
1980
2140
2140
2300
2460
2620
2940
2940
3100
3100
3260
3260
3980
4220
2.0
1509
1948
2272
2528
2890
3612
4252
5925
7407
9053
11503
13533
14996
16496
18105
20574
22403
26170
30230
34473
38039
40380
42904
50731
56071
65288
73225
2.25
1697
2191
2556
2844
3251
4063
4783
6666
8332
10184
12941
15225
16871
18558
20368
23146
25203
29441
34009
38782
42794
45427
48267
57072
63080
73449
82378
2.50
1886
2435
2840
3160
3612
4515
5315
7407
9258
11316
14379
16916
18745
20620
22631
25718
28004
32713
37788
43091
47549
50475
53630
63414
70089
81610
91531
2.75
2075
2678
3124
3476
3973
4966
5846
8147
10184
12447
15817
18608
20620
22682
24895
28289
30804
35984
41566
47400
52304
55522
58993
69755
77098
89771
100685
3.0
2263
2922
3408
3792
4334
5418
6378
8888
11110
13579
17255
20300
22494
24744
27158
30861
33604
39255
45345
51709
57059
60570
64355
76096
84107
97932
109838
2000
2500
3000
3500
4000
5000
6000
8000
10000
12500
15000
18000
20000
23000
25000
28000
30000
35000
40000
45000
50000
55000
60000
70000
80000
90000
100000
Model Nominal Air flow(m3/h)
Modulus Dimension
H(mm) W(mm)H*W
Air flow(m3/h)
Surface air velocity(m/s)
Note:The data of unit height do not include the base frame height (100mm)
Performance DataQuick Selection
4
Not
e:1.
Coo
ling
mod
e: a
ir in
let 2
7℃D
B/19
.5℃
WB,
wat
er in
let/o
utle
t tem
p.7℃
/12℃
;
2.C
oppe
r tub
e an
d al
umin
um fi
n; fi
n in
terv
al 1
0FPI
,8~1
4FPI
as
optio
nal;
3.H
F m
eans
eac
h lo
op ru
nnin
g th
roug
h ha
lf of
all t
ubes
; FL
mea
ns e
ach
loop
runn
ing
thro
ugh
all t
ubes
; DB
mea
ns e
ach
loop
runn
ing
thro
ugh
doub
le a
ll tub
es.
Uni
t Per
form
ance
Dat
a (C
oolin
g m
ode,
Ret
urn
air c
ondi
tion)
002
002.
500
300
3.5
004
005
006
008
010
012.
501
501
802
002
302
50.
2803
003
504
004
505
005
506
007
008
009
010
0
0710
0712
0812
0813
0913
1013
1015
1217
1417
1420
1622
1822
1824
2024
2026
2226
2228
2430
2632
2636
2836
2838
3038
3340
3640
3649
3852
2000
25
00
3000
35
00
4000
50
00
6000
80
00
1000
0 12
500
1500
0 18
000
2000
0 23
000
2500
0 28
000
3000
0 35
000
4000
0 45
000
5000
0 55
000
6000
0 70
000
8000
0 90
000
1000
00
9.1
12.5
14
.8
17.4
19
.9
24.9
30
.8
43.1
54
.9
69.3
86
.4
103.
0 11
5.9
131.
1 12
9.8
146.
2 16
0.3
189.
7 22
8.1
254.
4 28
2.0
308.
9 33
4.0
394.
6 44
4.5
517.
6 52
2.40
0.44
0.
60
0.71
0.
83
0.95
1.
19
1.47
2.
06
2.62
3.
31
4.13
4.
92
5.54
6.
27
6.20
6.
98
7.66
9.
06
10.9
0 12
.15
13.4
7 14
.76
15.9
6 18
.85
21.2
4 24
.73
24.9
6
3.1
6.4
6.8
9.8
10.0
10
.5
17.1
26
.0
22.1
45
.2
59.7
56
.0
74.9
79
.5
15.5
16
.1
20.0
21
.3
25.9
37
.1
37.4
46
.1
48.7
57
.6
61.5
86
.4
15.8
HF
HF
HF
HF
HF
HF
HF
HF
HF
HF
HF
HF
HF
HF FL FL FL FL FL FL FL FL FL FL FL HF FL
12.8
16
.9
20.1
23
.6
27.0
33
.8
41.3
56
.9
71.9
83
.0
103.
3 12
3.3
139.
1 15
7.9
174.
5 19
6.2
213.
6 25
1.4
290.
6 33
2.5
349.
0 38
3.1
414.
7 48
9.2
553.
6 62
3.2
701.
0
0.61
0.
81
0.96
1.
13
1.29
1.
61
1.97
2.
72
3.43
3.
97
4.94
5.
89
6.65
7.
54
8.34
9.
37
10.2
1 12
.01
13.8
8 15
.89
16.6
7 18
.30
19.8
1 23
.37
26.4
5 29
.78
33.4
9
8.1
16.0
16
.9
24.1
23
.6
24.1
38
.8
56.7
40
.9
17.3
23
.2
21.2
25
.9
28.2
36
.0
36.8
45
.5
49.9
60
.2
85.0
29
.2
36.1
39
.0
46.7
51
.1
30.2
35
.6
HF
HF
HF
HF
HF
HF
HF
HF
HF FL FL FL FL FL FL FL FL FL FL FL DB
DB
DB
DB
DB FL FL
15.2
19
.8
23.7
27
.7
31.8
39
.7
48.2
61
.3
77.8
98
.2
121.
1 14
4.7
162.
5 18
5.0
203.
4 22
8.7
247.
5 29
0.5
310.
7 35
7.1
396.
1 43
5.2
472.
0 55
6.1
630.
4 72
8.4
816.
4
0.73
0.
95
1.13
1.
32
1.52
1.
90
2.30
2.
93
3.72
4.
69
5.78
6.
91
7.76
8.
84
9.72
10
.93
11.8
3 13
.88
14.8
4 17
.06
18.9
2 20
.79
22.5
5 26
.57
30.1
2 34
.80
39.0
1
14.5
27
.7
28.6
40
.8
41.2
41
.9
66.8
15
.4
13.4
26
.7
35.6
32
.7
43.4
47
.2
59.9
60
.8
74.7
83
.3
17.2
24
.1
24.3
30
.0
33.2
40
.3
45.1
50
.7
60.8
HF
HF
HF
HF
HF
HF
HF FL FL FL FL FL FL FL FL FL FL FL DB
DB
DB
DB
DB
DB
DB FL FL
Mod
elM
odul
usA
ir flo
w(m
3 /h)
4-R
ow6-
Row
8-R
owC
oolin
g C
apac
itykW
Coo
ling
Cap
acity
kW
Coo
ling
Cap
acity
kW
Wat
er
flow
l/s
Wat
er
flow
l/s
Wat
er
flow
l/s
Wat
er p
ress
ure
drop
kPa
Wat
er p
ress
ure
drop
kPa
Wat
er p
ress
ure
drop
kPa
Wat
er
loop
Wat
er
loop
Wat
er
loop
5
Not
e:1.
Coo
ling
mod
e: a
ir in
let 2
7℃D
B/19
.5℃
WB,
wat
er in
let/o
utle
t tem
p.7℃
/12℃
;
2.C
oppe
r tub
e an
d al
umin
um fi
n; fi
n in
terv
al 1
0FPI
,8~1
4FPI
as
optio
nal;
3.H
F m
eans
eac
h lo
op ru
nnin
g th
roug
h ha
lf of
all t
ubes
; FL
mea
ns e
ach
loop
runn
ing
thro
ugh
all t
ubes
; DB
mea
ns e
ach
loop
runn
ing
thro
ugh
doub
le a
ll tub
es.
4. D
ata
with
“*” m
eans
the
wat
er p
ress
ure
drop
is lim
ited,
and
the
wat
er te
mpe
ratu
re d
iffer
ence
is h
ighe
r the
n 5℃
.
Uni
t Per
form
ance
Dat
a (C
oolin
g m
ode,
Fre
sh a
ir co
nditi
on)
002
002.
500
300
3.5
004
005
006
008
010
012.
501
501
802
002
302
50.
2803
003
504
004
505
005
506
007
008
009
010
0
0710
0712
0812
0813
0913
1013
1015
1217
1417
1420
1622
1822
1824
2024
2026
2226
2228
2430
2632
2636
2836
2838
3038
3340
3640
3649
3852
2000
25
00
3000
35
00
4000
50
00
6000
80
00
1000
0 12
500
1500
0 18
000
2000
0 23
000
2500
0 28
000
3000
0 35
000
4000
0 45
000
5000
0 55
000
6000
0 70
000
8000
0 90
000
1000
00
23.0
30
.5
36.2
42
.2
48.2
60
.3
65.2
91
.5
114.
1 14
7.2
181.
9 21
8.8
246.
5 27
8.9
307.
9 34
6.8
377.
5 44
4.2
513.
5 54
3.65
*60
2.6*
645.
5*69
7.4*
806.
8*91
0.3*
1101
.2
1238
.40
1.10
1.
46
1.73
2.
01
2.30
2.
88
3.12
4.
37
5.45
7.
03
8.69
10
.46
11.7
8 13
.33
14.7
1 16
.57
18.0
4 21
.23
24.5
3 18
.55
20.5
7 20
.56
22.2
1 24
.09
27.1
8 52
.60
59.1
5
17.0
33
.0
34.8
49
.2
50.5
53
.3
13.0
17
.5
19.2
42
.1
32.6
41
.2
54.4
59
.8
75.7
79
.2
85.4
89
.5
92.5
79
.1
79.7
83
.3
81.3
87
.4
89.6
63
.6
77.0
HF
HF
HF
HF
HF
HF FL FL FL FL FL FL FL FL FL FL FL FL FL FL FL FL FL FL FL FL FL
29.9
38
.7
46.1
49
.7
56.9
71
.1
87.0
11
9.7
149.
7 19
0.1
233.
4 26
6.7
299.
8 34
0.6
375.
1 42
1.7
457.
8 53
7.8
620.
6 66
3.5*
735.
8*79
2.4*
857.
8*99
3.2*
1124
.0*
1342
.6
1506
.4
1.43
1.
85
2.20
2.
38
2.72
3.
40
4.15
5.
72
7.15
9.
08
11.1
5 12
.74
14.3
2 16
.27
17.9
2 20
.15
21.8
7 25
.70
29.6
5 22
.64
25.1
1 25
.24
27.3
2 29
.66
33.5
6 64
.15
71.9
7
38.8
72
,476
.7
18.5
16
.5
18.1
28
.6
40.2
42
.4
62.0
80
.2
34.9
45
.5
51.7
64
.7
72.4
84
.7
76.4
84
.5
60.8
61
.3
64.1
73
.8
71.6
78
.4
54.0
65
.6
HF
HF
HF FL FL FL FL FL FL FL FL DB
DB
DB
DB
DB
DB
DB
DB
DB
DB
DB
DB
DB
DB
DB
DB
34.0
41
.3
49.3
57
.6
65.9
82
.4
100.
1 13
6.1
170.
6 20
2.2
264.
9 29
7.5
333.
9 38
0.5
418.
2 46
8.4
505.
9 59
7.2
687.
6 76
3.0*
846.
6*90
4.1*
980.
7.0*
1120
.5*
1270
.6*
1497
.6
1677
.8
1.63
1.
97
2.36
2.
75
3.15
3.
94
4.78
6.
50
8.15
9.
66
12.6
5 14
.22
15.9
6 18
.18
19.9
8 22
.38
24.1
7 28
.54
32.8
5 30
.38
33.7
1 36
.00
33.4
7 33
.46
37.9
4 71
.55
80.1
6
63.3
18
.9
18.3
25
.9
26.7
27
.5
40.1
58
.9
63.5
19
.6
21.3
31
.1
40.3
47
.0
58.3
65
.8
72.5
62
.8
74.4
69
.3
69.9
61
.7
68.5
61
.3
68.8
48
.4
58.9
HF FL FL FL FL FL FL FL FL DB
DB
DB
DB
DB
DB
DB
DB
DB
DB
DB
DB
DB
DB
DB
DB
DB
DB
Mod
elM
odul
usA
ir flo
w(m
3 /h)
4-R
ow6-
Row
8-R
owC
oolin
g C
apac
itykW
Coo
ling
Cap
acity
kW
Coo
ling
Cap
acity
kW
Wat
er
flow
l/s
Wat
er
flow
l/s
Wat
er
flow
l/s
Wat
er p
ress
ure
drop
kPa
Wat
er p
ress
ure
drop
kPa
Wat
er p
ress
ure
drop
kPa
Wat
er
loop
Wat
er
loop
Wat
er
loop
6
002
002.5
003
003.5
004
005
006
008
010
012.5
015
018
020
023
025
0.28
030
035
040
045
050
055
060
070
080
090
100
4M
48.2
52.9
54.3
56.7
58.1
59.5
64.2
71.8
74.5
81.7
89.2
92.0
96.7
99.5
104.3
107.0
111.8
119.3
126.9
136.4
139.2
143.9
146.7
155.6
159.8
181.2
191.1
12M
96.1
103.9
106.8
110.7
113.6
116.5
124.3
137.9
143.7
155.4
169.0
174.8
182.6
188.4
196.2
202.0
209.8
223.4
237.0
252.6
258.4
266.2
272.0
288.5
297.2
332.3
349.8
20M
144.1
154.9
159.4
164.8
169.2
173.6
184.4
204.1
212.9
229.2
248.9
257.7
268.5
277.3
288.2
297.0
307.8
327.5
347.2
368.8
377.7
388.5
397.3
421.4
434.7
483.4
508.5
32M
226.9
244.3
251.0
259.7
266.3
273.0
290.4
321.2
334.6
360.7
391.4
404.8
422.2
435.6
453.0
466.4
483.8
514.5
545.3
580.1
593.5
610.9
624.2
661.7
681.8
760.1
799.5
44M
298.8
320.8
329.7
340.7
349.7
358.6
380.6
420.5
438.4
471.3
511.2
529.1
551.0
569.0
590.9
608.8
630.8
670.7
710.5
754.4
772.3
794.3
812.2
861.1
887.9
986.7
1037.5
8M
72.2
78.4
80.6
83.7
85.9
88.0
94.3
104.9
109.1
118.6
129.1
133.4
139.7
144.0
150.3
154.5
160.8
171.4
181.9
194.5
198.8
205.1
209.4
222.1
228.5
256.8
270.5
16M
120.1
129.4
133.1
137.8
141.4
145.1
154.4
171.0
178.3
192.3
208.9
216.3
225.6
232.9
242.2
249.5
258.8
275.5
292.1
310.7
318.0
327.4
334.7
355.0
365.9
407.9
429.2
26M
190.9
206.0
211.6
219.1
224.7
230.2
245.3
271.6
282.7
305.4
331.6
342.7
357.8
368.9
384.0
395.1
410.2
436.5
462.7
492.9
504.0
519.2
530.3
562.0
578.7
646.7
680.5
38M
262.9
282.5
290.3
300.2
308.0
315.8
335.5
370.8
386.5
416.0
451.3
467.0
486.6
502.3
522.0
537.6
557.3
592.6
627.9
667.3
682.9
702.6
718.2
761.4
784.9
873.4
918.5
Connection section
7.9
9.4
10.6
11.4
12.7
14.0
16.0
21.5
24.8
29.0
36.1
40.4
44.0
48.7
52.6
57.7
62.0
72.1
83.0
93.2
100.1
105.6
112.9
130.4
141.9
173.3
193.7
Model
Weight(kg)
Dimensional DataStandard model Qty:27;Air flow range:2000~100000m3/h(For vertical unit:2000~25000m3/h)Unit modulus:80mm/modulus;Unit height:H=height modulus*80+60+100(Base frame height) (mm);Unit width:W=width modulus*80+60 (mm).
Unit Weight (kg)
7
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B732 CCU/01-01-2012EN-SHAll specification and data are subject to change without notice