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Channel Spacing Spiral-plate Heat Exchanger Design

    Payment Type: L/C,T/T,Paypal
    Incoterm: FOB,CFR,CIF
    Min. Order: 1 Bag/Bags
    Delivery Time: 90 Days
Additional Info

Packaging: npackaged

Productivity: 1000

Brand: WST

Transportation: Ocean

Place of Origin: Wuxi City,China

Supply Ability: 1000

Certificate: GB ASME PED

Product Description
Channel Spacing Spiral-plate Heat Exchanger Design,Spiral Plate Heat Exchanger compact structure, the unit volume to provide a large heat transfer surface, such as the diameter ¢ 1500mm high 1200mm spiral plate heat exchanger heat transfer surface up to 130m2. Fluid in the spiral plate allows high flow rate, and the flow of fluid along the spiral, the stagnation layer is thin, so the heat transfer coefficient, heat transfer efficiency. In addition, due to large flow rate, dirt is not easy to stay.

There are three main types of flows in a spiral heat exchanger:
  1. Counter-current Flow: Fluids flow in opposite directions. These are used for liquid-liquid, condensing and gas cooling applications. Units are usually mounted vertically when condensing vapour and mounted horizontally when handling high concentrations of solids.
  2. Spiral Flow/Cross Flow: One fluid is in spiral flow and the other in a cross flow. Spiral flow passages are welded at each side for this type of spiral heat exchanger. This type of flow is suitable for handling low density gas, which passes through the cross flow, avoiding pressure loss. It can be used for liquid-liquid applications if one liquid has a considerably greater flow rate than the other.
  3. Distributed Vapour/Spiral flow: This design is that of a condenser, and is usually mounted vertically. It is designed to cater for the sub-cooling of both condensate and non-condensables. The coolant moves in a spiral and leaves via the top. Hot gases that enter leave as condensate via the bottom outlet.

Spiral-plate Heat Exchanger

Self Cleaning
SHEs are often used in the heating of fluids that contain solids and thus tend to foul the inside of the heat exchanger. The low pressure drop lets the SHE handle fouling more easily. The SHE uses a "self cleaning" mechanism, whereby fouled surfaces cause a localized increase in fluid velocity, thus increasing the drag (or fluid friction) on the fouled surface, thus helping to dislodge the blockage and keep the heat exchanger clean. "The internal walls that make up the heat transfer surface are often rather thick, which makes the SHE very robust, and able to last a long time in demanding environments.They are also easily cleaned, opening out like an oven where any build up of foulant can be removed by pressure washing.

Nominal heat exchanger aream2
Channel spacingmm
Calculating heat transfer area m2
Velocity1m/cesWhen handling capacitym3/h
Nominal diameter takeoverdg
Models
Weight(kg)
I 6B
I 6B
1
6
1.0
3.89
40
I 6,I 16B1-0.2/300-6
44
50
2
6
2.1
3.89
40
I 6, I 16B2-0.2/400-6
78
85
4
6
4.4
8.2
50
I 6, I 16B4-0.4/400-6
131
135
10
4.5
17.3
80
I 6, I 16B4-0.5/450-10
129
133
10
4.8
13.7
70
I 6, I 16B4-0.4/500-10
161
205
8
6
7.3
8.21
50
I 6, I 16B8-0.4/500-6
212
215
10
7.85
17.3
80
I 6, I 16B8-0.5/550-10
235
273
10
7.3
20.90
80
I 6, I 16B8-0.6/500-10
237
275
10
6
11.1
8.21
50
I 6, I 16B10-0.4/600-6
295
355
10
11.5
17.3
80
I 6, I 16B10-0.5/650-10
315
405
10
11.2
20.90
80
I 6, I 16B10-0.6/600-10
305
395
15
6
16.9
12.54
70
I 6, I 16B15-0.6/600-6
415
490
10
14.72
17.3
80
I 6, I 16B15-0.5/760-10
405
575
10
15.0
28.1
80
I 6, I 16B15-0.8/600-10
400
570
14
15.6
39.3
100
I 6, I 16B15-0.8/700-14
505
680
20
6
21.7
8.21
50
I 6, I 16B20-0.4/800-6
540
710
10
21.0
20.90
80
I 6, I 16B20-0.6/800-10
555
735
14
20.9
39.30
100
I 6, I 16B20-0.8/800-14
660
830
25
10
26.6
29.90
100
I 6, I 16B25-0.6/900-10
610
950
14
26.9
39.20
100
I 6, I 16B25-0.8/900-14
720
1060
30
10
28.2
28.10
100
I 6, I 16B30-0.8/800-14
750
1180
14
32.2
39.20
100
I 6, I 16B30-0.8/1000-14
980
1370
40
10
45.4
35.30
100
I 6, I 16B40-1.0/900-10
1130
1515
14
40.2
19.4
125
I 6, I 16B40-1.0/1000-14
1200
1630
50
10
53.9
35.3
100
I 6, I 16B50-1.0/1000-14
1360
1755
60
10
61.05
35.3
100
I 6, I 16B60-1.0/1100-10
1920
2112
14
60.08
49.40
125
I 6, I 16B60-1.0/1200-14
2000
2200
80
10
81.83
35.3
100
I 6, I 16B80-1.0/1200-10
2560
2816
14
80.9
49.40
125
I 6, I 16B80-1.0/1400-14
2667
1934
100
10
101.9
35.3
100
I 6, I 16B100-1.0/1300-10
3200
3520
14
100.06
49.40
125
I 6, I 16B100-1.0/1500-14
3333
3666
120
10
115.5
35.3
100
I 6, I 16B120-1.0/1500-10
3870
4257
14
119.0
49.4
125
I 6, I 16B120-1.0/1700-14
4020
4422
130
14
128.80
49.4
125
I 6, I 16B130-1.0/1750-14
4241
4665
18
129.09
63.5
150
I 6, I 16B130-1.0/1967-18
4462
4908
150
14
148.1
49.4
125
I 6, I 16B150-1.0/1890-14
4702
5172
18
148.2
63.5
150
I 6, I 16B150-1.0/2010-18
4962
5458
Carbon SteelPg6\16kg/cm2Not dismantling type (Type I) spiral plate heat exchanger
Nominal heat exchanger area
m2
Channel spacing mm
Calculating heat transfer area m2
Flow velocityIm/cesWhen handling capacitym3/h
Nominal diameter takeoverdg
Type
Reference weight
(kg)
I 6T
I 16T
6
6
6.5
8.2
50
I 6, I 16T6-0.4/500-6
230
280
10
5.8
13.7
70
I 6, I 16T6-0.4/600-10
285
350
8
6
8.7
8.2
50
I 6, I 16T8-0.4/600-6
370
430
10
7.7
17.3
80
I 6, I 16T8-0.5/660-10
395
454
10
8.7
13.7
70
I 6, I 16T8-0.4/700-10
405
465
10
6
9.9
12.5
70
I 6, I 16T10-0.6/500-6
335
395
10
9.2
17.30
80
I 6, I 16T10-0.5/660-10
472
543
10
8.8
20.9
80
I 6, I 16T10-0.6/600-10
410
495
15
6
12.5
8.2
50
I 6, I 16T15-0.4/700-6
510
580
10
14.64
17.30
80
I 6, I 16T15-0.5/800-10
679
781
10
13.3
20.9
80
I 6, I 16T15-0.6/700-10
575
680
14
13.8
29.2
100
I 6, I 16T15-0.6/800-14
640
755
20
6
19.0
12.5
70
I 6, I 16T20-0.6/700-6
730
845
10
18.3
28.1
80
I 6, I 16T20-0.8/800-10
735
870
14
18.5
39.3
100
I 6, I 16T20-0.8/800-14
810
960
25
10
23.1
28.1
100
I 6, I 16T25-0.8/800-10
935
1120
14
23.3
49.4
125
I 6, I 16T25-1.0/800-14
1000
1165
30
10
29.0
35.3
100
I 6, I 16T30-1.0/800-10
1190
1470
14
28.1
59.4
125
I 6, I 16T30-1.2/800-14
1170
1425
40
10
40.9
20.9
80
I 6, I 16T40-0.6/1200-10
1725
1885
14
42.3
39.3
100
I 6, I 16T40-0.8/1200-14
1845
2110
18
44.9
63.5
150
I 6, I 16T40-1.0/1200-18
2075
2405
50
10
46.2
35.5
100
I 6, I 16T50-1.0/1000-10
1800
2085
14
53.2
49.4
125
I 6, I 16T50-1.0/1200-14
2490
2595
18
54.0
76.3
150
I 6, I 16T50-1.2/1200-18
2435
2820
60
10
56.8
20.9
80
I 6, I 16T60-0.6/1400-10
2330
2635
14
60.7
39.3
100
I 6, I 16T60-0.8/1400-14
2595
2850
18
59.6
63.5
150
I 6, I 16T60-1.0/1400-18
2730
3150
80
10
76.4
28.1
100
I 6, I 16T80-0.8/1400-10
2970
4060
14
78.6
39.3
100
I 6, I 16T80-0.8/1600-14
3210
3605
18
82.0
63.5
150
I 6, I 16T80-1.0/1600-18
3580
4205
100
10
101.4
28.1
100
I 6, I 16T100-0.8/1600-10
3905
4330
14
98.8
49.4
125
I 6, I 16T100-1.0/1600-14
4040
4585
18
98.8
76.3
150
I 6, I 16T100-1.2/1600-18
4200
4930
120
10
115.5
42.5
125
I 6, I 16T120-1.2/1400-10
4350
4980
14
119.0
59.4
125
I 6, I 16T120-1.2/1600-14
4770
5440
150
14
149.15
59.4
125
I 6, I 16T150-1.2/1800-14
6431
7396
18
149.86
76.3
150
I 6, I 16T150-1.2/2000-18
6643
7639
20
147.6
83.81
150
I 6, I 16T150-1.2/2050-20
6769
7784

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