| Customization: | Available |
|---|---|
| Condensation Forms: | Air-Cooled |
| Refrigerant: | R134 |
|
Still deciding? Get samples of US$ 30/Piece
Request Sample
|
Suppliers with verified business licenses
Audited Supplier Audited by an independent third-party inspection agency
Aluminum fin air conditioner micro channel condensers
We sell to 470 customers all over the world.
Our response time is within 4 hours, and action time within 12 hours
Prodcuts processing time 15 to 20 days, can reach 95% rate.
Micro channel heat exchanger (MCHE) is a highly compact heat exchanger, whole body aluminum structure, the diameter of a single control refrigerant circulating about 1MM. Compared with conventional finned tube heat exchanger, MCHE using micro-sized heat transfer technology, smaller, lighter, heat rate increased by 50%, 50% less refrigerant charge fluence, fan power consumption is reduced accordingly. With rising raw material prices, air-conditioning product standards and environmental requirements continue to increase, micro channel heat exchanger is gradually replace traditional heat exchangers, and has been widely used in various fields, such as home air conditioning, commercial air conditioners, precision computer room air conditioners, heat pumps water heaters, refrigeration, air conditioning containers, train air conditioning, automotive air-conditioning and other fields.
MCHEs have an ingeniously simple design-made entirely of all aluminium which is not only lightweight but also prevents galvanic corrosion. The refrigerant-carrying tubes are formed to optimise heat transfer, thus enabling the production of more compact, but equally effective...
MCHE offer a long list of features not found in other heat exchangers. Parallel flow increases performance by up to 45% compared to traditional tube and fin heat exchangers. Its special circuit design reduces internal pressure drop on the gas side by more than 65%, which produces significant savings in compressor energy consumption and weariness. Its slim design and its thin cross flow tube profile decreases air pressure drop by 25% also bringing considerable advantages: smaller fans, less noise and lower electricity consumption.
Benefits
a. Compact overall design - up to 30 percent smaller and lighter than existing tube and fin products
b. Compact, reduced coil size meets the market's need for less storage space, easy installation, and aesthetics
c. Superior thermal performance
d. Aluminum construction yields high durability and is easy to recycle
e. Easy to handle, minimizing fin damage
f. Substantial refrigerant charge reduction compared to tube and fin designs, enhancing environmental friendliness and helping reduce operating costs
g. Helps original equipment manufacturers meet high SEER (Seasonal Energy Efficiency Ratio) requirements
){kind=link}