SHANDONG DELIN

Heat pipe heat exchange box


Heat pipe heat exchange box
Heat pipe heat exchange box
Heat pipe heat exchange box
Heat pipe heat exchange box
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  • Heat pipe heat exchange box
  • Heat pipe heat exchange box
  • Heat pipe heat exchange box
  • Heat pipe heat exchange box

Product Details

Product Overview:
Our company’s heat-pipe heat exchanger cabinet is an integrated, energy-saving heat exchange device that incorporates a heat-pipe heat exchanger within a compact enclosure. With the heat pipe as its core heat-transfer element, it enables complete separation of hot and cold fluids while delivering highly efficient heat transfer, making it a modular solution for industrial waste-heat recovery, HVAC energy conservation, and process temperature control applications.
It integrates the heat-pipe heat exchanger core, airflow channels, insulated housing, and mounting interfaces into a single unit, eliminating the need for complex piping systems. Featuring easy installation and stable operation, it enables heat recovery under harsh conditions such as high temperatures, dusty environments, and corrosive atmospheres. With high heat-transfer efficiency, no cross‑contamination between hot and cold fluids, simple maintenance, and modular adaptability, it is widely used in industrial waste‑gas heat recovery, fresh‑air energy recovery, and energy‑efficient retrofits of air-conditioning systems.

Product specification and model reference:
Heat pipe heat exchanger units are typically classified based on nominal airflow, heat transfer capacity, heat pipe specifications, and flow configuration. Common specifications are listed below:

Specification Type

Processing air volume ( m³/h)

Heat exchange range ( kW)

Typical Operating Condition Parameters

Main application scenarios

Small Heat Pipe Heat Exchanger Box

1000~10000

20~200

air - Gas-to-heat exchange, medium temperature 0–150°C

Fresh air systems, cooling for small equipment, laboratory exhaust ventilation

Medium-sized heat pipe heat exchanger box

10,000~50,000

200~1000

Flue gas - Air heat exchange, medium temperature 150–350°C

Industrial boilers, flue gas waste heat recovery for kilns, and workshop ventilation systems

Large Heat Pipe Heat Exchanger Box

Over 50,000

More than 1,000

High-temperature flue gas heat exchange, medium temperature 350~600℃

Power plants, metallurgy, large-scale waste heat recovery systems in the chemical industry, and industrial exhaust gas treatment

Note: Model designations typically combine the medium type with the heat transfer capacity; for example, “RX‑300” denotes a heat pipe heat exchanger with a heat transfer rate of 300 kW. Material options include carbon steel (economical) and stainless steel (corrosion‑resistant), and the fins can be coated with an anti‑corrosion finish, making the unit suitable for applications involving dusty or corrosive flue gases.

Scope of Product Use:
Heat pipe heat exchangers are suitable for a wide range of applications, particularly in operating conditions where conventional heat exchangers struggle to perform. 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, reducing fuel consumption and carbon emissions.
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 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.
Waste gas treatment and environmental protection sector:
Waste incineration plants, textile dyeing and printing facilities, and spray‑coating workshops employ waste‑gas treatment systems that recover waste heat during gas cooling or heating, thereby reducing system energy consumption. In flue‑gas desulfurization and denitrification systems, these technologies are used for preheating or cooling the flue gas, ensuring stable and reliable operation.
Process Temperature Control and Special Operating Conditions:
Heat dissipation and cooling for electronic and electrical equipment, such as heat-pipe cooling systems in distribution cabinets and variable-frequency drives; 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 heat recovery from chemical exhaust gases and industrial wastewater treatment systems.

 

 

 


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