Customized |
Application |
Cooler, Condenser, Heat Exchangers,evaporator |
|
Principle |
Micro-channel Power Plants Parallel Condenser |
Style |
Corrugated/louvered/flat Fin Type |
Fins materials |
Copper/aluminum/stainless steel |
Full Customization |
Customized |
Endplate |
Galvanized/aluminum/Stainless steel |
Specification |
Customized |
Trademark |
JIANGTUN |
Origin |
China |
Transport Package |
Customized |
Production Capacity |
100000pieces/Years |
MOQ |
10pcs ( sample is ok ) |
Delivery time |
5-7 days for samples, 15-20 days for bulk production. |
Packaging & delivery
Packaging Details |
Foam packed in inner machine,carton pack outside |
Port |
Ningbo/ Shanghai
|
Description:
A regenerative 650*378*18mm condenser for a refrigerator is designed to efficiently transfer heat from the high-pressure, high-temperature refrigerant vapor to the surrounding environment while simultaneously capturing and reusing a portion of the released heat. The condenser typically consists of a set of coils or tubes through which the refrigerant flows. As the refrigerant releases heat and condenses into a liquid state, a portion of the captured heat is redirected back into the system to aid in the vaporization of the liquid refrigerant during the expansion process. This regenerative heat exchange process enhances the overall efficiency of the refrigeration cycle.
Advantages:
1. Enhanced Efficiency:Regenerative condensers improve the efficiency of the refrigeration system by utilizing the captured heat energy to aid in vaporization during the expansion process.
2. Energy Savings:By reusing heat energy that would otherwise be lost, regenerative condensers help reduce the energy consumption of the refrigerator, leading to lower operating costs.
3. Compact Design:The condenser's compact size allows for efficient use of space within the refrigerator unit, making it suitable for installations with limited room.
4. Temperature Control:The regenerative process can contribute to improved temperature control within the refrigerator compartments, maintaining more stable cooling conditions.
The fin heat exchanger was one of the earliest and most successful discoveries in the process of improving tubular heat transfer. Pleasecontact usto getMould Specification for more details.