|
|
 |
Popular Shell and tube heat exchangers
(Series GH) |
| |
|
 |
Series GH includes type Iand type II,type II has
gas-liquid separator and should be used as condensator.
|
| Type |
Heat Exchange Area m2
|
Total Height mm
|
Total Weight kg
|
| Type I |
Type II
|
type I
|
Type II
|
|
GH30
|
5
|
2910
|
3230
|
375
|
390
|
|
10
|
3910
|
4230
|
440
|
455
|
|
GH40
|
10
|
2910
|
3230
|
535
|
550
|
|
15
|
3910
|
4230
|
630
|
645
|
|
20
|
4910
|
5230
|
725
|
740
|
|
GH45
|
20
|
3920
|
4240
|
790
|
805
|
|
30
|
4920
|
5240
|
912
|
927
|
|
GH50
|
25
|
3960
|
4320
|
950
|
967
|
|
35
|
4960
|
5320
|
1100
|
1117
|
|
GH55
|
30
|
3980
|
4390
|
1080
|
1105
|
|
40
|
4980
|
5390
|
1244
|
1269
|
|
GH60
|
35
|
4040
|
4440
|
1300
|
1321
|
|
50
|
5040
|
5440
|
1500
|
1521
|
|
GH65
|
45
|
4050
|
4450
|
1580
|
1603
|
|
60
|
5050
|
5450
|
1813
|
1836
|
|
GH70
|
60
|
4115
|
4495
|
1980
|
1992
|
|
80
|
5115
|
5495
|
2296
|
2308
|
|
100
|
6155
|
6495
|
2611
|
2623
|
|
GH80
|
75
|
4155
|
4535
|
2500
|
2510
|
|
105
|
5155
|
5535
|
2901
|
2911
|
|
130
|
6155
|
6535
|
3302
|
3312
|
|
GH90
|
105
|
4205
|
4625
|
3200
|
3220
|
|
140
|
5205
|
5625
|
3713
|
3733
|
|
170
|
6205
|
6625
|
4226
|
4246
|
|
GH100
|
130
|
4265
|
4685
|
4150
|
4175
|
|
170
|
5265
|
5685
|
4810
|
4835
|
|
210
|
6265
|
6685
|
5470
|
5495
|
|
GH110
|
175
|
4320
|
4730
|
4980
|
5010
|
|
210
|
5320
|
5730
|
5762
|
5792
|
|
260
|
6320
|
6730
|
6543
|
6573
|
|
Remarks:
We can supply various specifications non-standard equipment on request,
Max. heat exchange area is up to 1500m2.
|
| Similarities
and differences between Series GH and JGH: |
|
|
Similarities:
The graphite
tubes bound to the upper and lower tube sheets with phenolic resin to form
an integral part with simple and compact structure. Small fluid resistance.
|
|
Differences:
Series JGH are made of impervious fully
graphitized tubes, CTE of which is only
one fifth of popular pressed one whereas thermal
conductivity increases four times and reaches
101 W/m·°C. Because physical properties of tube
sheets are similar to tubes causing similar thermal
expansion with the change of media and temperature,
the ability of resistance to heat and compact
has improves obviously.
|
|
Physical
Properties Comparison between Impervious Fully Graphitized Tubes and Popular
Pressed Tubes
|
Item |
Impervious Fully Graphitized Tube |
Popular Pressed Tube |
|
Bulk Density kg/m3 |
1750
|
1800
|
|
Porosity % |
0
|
0
|
|
Compressive Strength MPa |
80
|
90
|
|
Tensile Strength MPa |
18
|
20
|
|
Bending Strength MPa |
31
|
35
|
|
Thermal Conductivity W/m°C |
101
|
27~35
|
|
CTE x10-6/°C |
5.5
|
24.2
|
|
Bursting Pressure MPa |
8
|
9
|
|
| Series GGH
: |
|
The graphite tubes bound to the tube sheets
with mechanical sealing at one end or both ends,
thus each tube can move axially inside the plant
so as to eliminate the stress that might be caused
from different expansion coefficients between
tubes when heated. This plant can be used as
a heater, reboiler or evaporator. |
|
|
|
|
