Working principle
Channels are formed between the plates and the corner ports are arranged so that the two media flow through alternate channels. The heat is transferred through the plate between the channels, and complete counter-current flow is created for highest possible efficiency. The corrugation of the plates provides the passage between the plates, supports each plate against the adjacent one and enhances the turbulence, resulting in efficient heat transfer.
|
plate material |
Stainless steel(SUS304, 316L etc ), Titanium and Nickle |
|
gasket material |
NBR:(applicable temperature -15-+120℃) |
|
Thickness of plate |
0.5mm |
Model
A(mm)
B(mm)
C(mm)
D(mm)
E(mm)
Weight(mm)
Amount of liquid
(L)
Heat transfer area
(㎡)
Maximum flow
(m3/h)
JXZ14
9+2.3N
76
42
206
172
0.7+0.06N
0.010(N-2)
0.014(N-2)
8
JXZ15
9+13N
80
42
190
154
0.9+0.06N
0.010(N-2)
0.014(N-2)
12
JXZ20
9+21
76
42
310
280
1.0+0.08N
0.018(N-2)
0.020(N-2)
8
JXZ25
9+1.5N
93
39
325
270
1.0+0.09N
0.014(N-2)
0.025(N-2)
8
JXZ26
9+2.45N
111
50
310
250
1.3+0.13N
0.025(N-2)
0.026(N-2)
18
JXZ26B
9+2.45N
111
50
310
250
1.3+0.13N
0.025(N-2)
0.026(N-2)
18
JXZ50V
9+2.45N
111
50
525
466
2.0+0.23N
0.047(N-2)
0.050(N-2)
18
JXZ50C
9+2.45N
111
50
525
466
2.0+0.23N
0.047(N-2)
0.050(N-2)
18
JXZ95V
11+2.43N
191
92
616
519
7.8+0.44N
0.105(N-2)
0.095(N-2)
42
JXZ95B
11+2.8N
191
92
616
519
7.8+0.44N
0.125(N-2)
0.095(N-2)
42
JXZ95C
11+2.8N
191
92
616
519
7.8+0.44N
0.125(N-2)
0.095(N-2)
42
JXZ190
13+2.65N
307
179
699
567
10+0.51N
0.217(N-2)
0.190(N-2)
140
JXZ210
12+2.78N
321
211
738
599
13.085N
0.225(N-2)
0.021(N-2)
100