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Moving the refrigerant through the system, the compressor of a refrigerator functions as both a motor and a pump.
When the temperature inside the refrigerator climbs above a preset level, temperature sensors trigger the compressor to turn on.
There are air leaks inside and outside of every refrigerator, which causes the temperature to rise above the set point.
The cold refrigerant gas exits the evaporator as liquid when the compressor begins to run. A particular refrigerant gas used in refrigerators freezes into a liquid around -15.9 degrees Fahrenheit (-26.6 degrees Celsius).
The gas is then compressed by the compressor by applying pressure to it. The gas’s temperature rises as a result of compression.
The refrigerator’s bottom or back have exterior metal coils (tubes) that the compressor pumps hot, compressed gas through.
The heat can dissipate into the surrounding air thanks to these coils. The gas cools and becomes a liquid because it is under pressure.
The Global Refrigeration Motors market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
Two new brazed plate heat exchangers (BPHEs), the B4T Ultra (U) Pressure and the V250AS, have been introduced to the refrigeration sectors by SWEP, a subsidiary of Dover.
With an emphasis on water loop applications and tiny condensing units, SWEP’s new B4U (Ultra Pressure) model was created for applications in refrigeration that target CO2 as the preferred natural refrigerant option.
The unique B4T-U type is a highly competitive option because of its small size and ability to sustain trans critical pressures.
In a number of refrigerant applications, this new BPHE type can function as a motor condenser, economizer, and gas cooler.