Comparison Charts

 

MAXIM STANDARD EVAPORATOR DATA CHART - ENGLISH VERSION
(ENGINE JACKET WATER OPERATED1)

MAXIM Model No.
Fresh Water Capacity2
GPD
Eng. Load
(Dev. BHP)
Gen. Load
(Dev. KW)
Jacket Water
GPH | FT
Heat Input
Requirements
(BTU/hr)
Sea Water Flow (GPH)3
Elect. Power Req'd4
(KW/hr)
Net Wt. (lbs)
Approximate Dimensions (inches)
LxWxH
HJ3C
192
38
30
390 | 15.5
75,000
360
0.8
125
20 x 11 x 23
HJ10C
600
125
93
1,200 |15.0
250,000
1,140
2.9
250
36 x 20 x 26
HJ20C
1,200
250
186
2,400 |16.2
500,000
2,160
2.9
410
43 x 22 x 31
HJ30C
2,000
416
310
4,680 |25.0
832,000
4,800
6.5
625
54 x 24 x 31
HJ50C
3,000
625
466
6,000 | 25.0
1,250,000
5,400
6.5
970
52 x 29 x 44
TCF 3.7
3,700
715
533
6,900 | 30.0
1,430,000
7,500
0.6
2,100
55 x 39 x 65
TCF 5
5,000
950
710
9,360 | 30.0
1,950,000
9,360
0.6
2,250
55 x 42 x 65
TCF 7.5
*7,500
1425
1065
17,400 | 30.0
2,900,000
14,700
1.6
2,900
82 x 44 x 68
TCF 11
11,000
2100
1565
20,400 | 30.0
4,250,000
20,040
1.6
4,800
92 x 50 x 68
TCF 15
15,000
2850
2125
27,840 | 30.0
5,800,000
27,600
1.6
5,600
95 x 65 x 76

*Water production capacity ranges from 7,500 GPD to 11,000 GPD based on system configuration.
1 Above data is for jacket water operation only.  Consult factory for data pertaining to steam operation.
2 Capacities are based on 185oF engine jacket water and 85oF sea water (except Model HJ3C is based on 70oF sea water).
3 TCF units do not include sea water pump.
4 Power includes a distillate pump and feedwater pump for the HJ models.  Power is the distillate pump only for TCF models.
 
Represents single stage/single effect design.  Additional output or higher thermal economy can be accomplished using multi-effect/multi-stage design.
 
 
 
MAXIM STANDARD EVAPORATOR DATA CHART - METRIC VERSION
(ENGINE JACKET WATER OPERATED1)
 
 
MAXIM Model No.
Fresh Water Capacity2
MTPD
Eng. Load
(Dev. BHP)
Gen. Load
(Dev. KW)
Jacket Water
M3/HR | FT
Heat Input
Requirements
(BTU/hr)
Sea Water Flow (M3/HR)3
Elect. Power Req'd4
(KW/hr)
Net Wt. (kg)
Approximate Dimensions (millimeters)
LxWxH
HJ3C
0.73
38
30
1.48 | 15.5
75,000
1.36
0.8
57
508 x 279 x 584
HJ10C
2.27
125
93
4.54 |15.0
250,000
4.31
2.9
114
914 x 508 x 660
HJ20C
4.54
250
186
9.08 |16.2
500,000
8.18
2.9
186
1092 x 559 x 787
HJ30C
7.57
416
310
17.72 |25.0
832,000
18.17
6.5
284
1372 x 610 x 787
HJ50C
11.36
625
466
22.71 | 25.0
1,250,000
20.44
6.5
441
1321 x 737 x 1118
TCF 3.7
14.00
715
533
26.12 | 30.0
1,430,000
28.39
0.6
955
1397 x 991 x 1651
TCF 5
18.90
950
710
35.43 | 30.0
1,950,000
35.43
0.6
1,023
1397 x 1067 x 1651
TCF 7.5
*28.40
1425
1065
65.87 | 30.0
2,900,000
55.64
1.6
1,318
2083 x 1118 x 1727
TCF 11
41.60
2100
1565
77.22 | 30.0
4,250,000
75.85
1.6
2,182
2337 x 1270 x 1727
TCF 15
56.80
2850
2125
105.39 | 30.0
5,800,000
104.47
1.6
2,545
2413 x 1651 x 1930
 
*Water production capacity ranges from 28.40 cubic meters to 41.64 cubic meters based on system configuration.
1 Above data is for jacket water operation only. Consult factory for data pertaining to steam operation.
2 Capacities are based on 85oC engine jacket water and 29.4oC sea water (except Model HJ3C is based on 21.1oC sea water).
3 TCF units do not include sea water pump.
4 Power includes a distillate pump and feedwater pump for the HJ models. Power is the distillate pump only for TCF models.

*Represents single stage/single effect design. Additional output or higher thermal economy can be accomplished using multi-effect/multi-stage design.
 
 

 


   

 

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