SHANDONG DELIN

Heat pipe heat exchanger


Heat pipe heat exchanger
Heat pipe heat exchanger
Heat pipe heat exchanger
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  • Heat pipe heat exchanger
  • Heat pipe heat exchanger
  • Heat pipe heat exchanger

Product Details

Product Overview:
Our company’s heat pipe heat exchangers are energy‑saving heat exchange devices that leverage the phase‑change heat transfer principle of heat pipes to achieve highly efficient heat transfer. With heat pipes as the core heat‑transfer elements, they enable rapid heat transfer and recovery without direct contact between the hot and cold fluids, making them one of the key pieces of equipment for industrial waste‑heat recovery, HVAC energy conservation, and process temperature control applications.
It achieves heat transfer through the evaporation–condensation cycle of the working fluid inside the heat pipe, delivering thermal conductivity far superior to that of conventional metals. It boasts high heat-transfer efficiency, eliminates cross‑contamination between hot and cold fluids, ensures stable operation, and is easy to maintain. It is particularly well suited for applications such as gas–gas heat exchange, waste‑heat recovery from dusty or corrosive gases, and energy recovery in fresh‑air systems, significantly improving energy utilization and reducing equipment energy consumption.

Products Specification and Size Chart:

Model number

 

Air volume m3/h

Windward area ( m2 )

 

Wind-facing dimensions mm

Number of columns

 

Weight kilogram

2.5m/s

3.0m/s

3.5m/s

L

H

4 Ranking

6 Ranking

8 Ranking

KRHS-60*2738

71462

85754

100047

7.94

6000

2738

53

2500

3360

4305

KRHS-60*2891

75455

90546

105637

8.34

6000

2891

56

2640

3550

4550

KRHS-60*3044

79448

95338

111228

8.83

6000

3044

59

2700

3630

4653

KRHS-60*3197

84870

101844

118818

9.43

6000

3197

62

2795

3755

4812

Note: 1. The length of the heat exchanger (in the direction of airflow), L, is as follows: 6 rows of tubes, 440 mm; 8 rows of tubes, 540 mm; 10 rows of tubes, 640 mm.

Efficiency and pressure drop of a heat pipe heat exchanger at standard atmospheric pressure and 20°C:

Air volume m3/h

2.5

3.2

3.8

4.5

5.0

Efficiency %

4 Ranking

54

52

50

49

48

6 Ranking

62

60

58

57

56

8 Ranking

68

66

64

63

62

10 Ranking

72

70

68

67

66

Resistance loss

Each row

15

20

30

45

55

 

Dry air density:

 

Humidity

35

30

25

20

15

10

5

0

-5

-10

-15

-20

P=kg/m3

1.146

1.165

1.185

1.201

1.226

1.248

1.270

1.293

1.317

1.342

1.368

1.396

 

Scope of Product Use:
Heat pipe heat exchangers are suitable for a wide range of applications, particularly in operating conditions that are difficult to handle with conventional heat exchangers. These include:
In the field of industrial waste heat recovery:
Waste heat recovery from flue gases of boilers, kilns, and heating furnaces can be used to preheat combustion air, heat process water, or provide space heating. In the chemical, metallurgical, and power industries, waste heat recovery from dusty or corrosive flue gases enables secondary energy utilization and reduces fuel consumption.
HVAC and Fresh Air Energy-Saving Field:
In commercial buildings, office towers, and hotels, the fresh-air system recovers cold or heat from exhaust air, reducing the load on the air-conditioning units and achieving energy savings. In industrial plants and workshops, ventilation systems recover exhaust‑air energy, enhancing environmental comfort while lowering energy consumption.
Process Temperature Control and Special Operating Conditions:
Heat dissipation and cooling for electronic and electrical equipment, such as heat-pipe radiators in distribution cabinets and inverters; heat recovery in cold storage facilities and low-temperature environments, enabling cascaded energy utilization; heat exchange applications involving dusty, humid, or corrosive gases, such as flue-gas treatment systems in waste incineration plants and textile dyeing factories.
Energy conservation and environmental protection sector:
The flue gas cooling/heating system in the flue gas desulfurization and denitrification process reduces overall system energy consumption; waste heat recovery from industrial wastewater and liquid effluents is utilized for process heating or space heating, thereby supporting the achievement of energy-saving and emission-reduction goals.

 


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