Trane TRG-TRC004-EN manual +Rw*Dv%\Sdvvwrydsrudwru,Qohw

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The Compressor in a System

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Figure 49

Hot gas bypass may be another solution for preventing evaporator frosting in DX applications. Hot gas bypass diverts hot, high-pressure refrigerant vapor from the discharge line to the low-pressure side of the refrigeration system. This added “false load” helps to maintain an acceptable suction pressure and temperature. Hot gas bypass, however, fails to reduce energy consumption because it does not allow the compressor to shut off at these low load conditions.

In a DX application, there are two bypass methods used. The first method bypasses refrigerant vapor from the compressor discharge line to the inlet of the evaporator coil. Sensing a decrease in suction pressure, a pressure- actuated valve opens to bypass hot refrigerant vapor from the compressor discharge line to the inlet of the evaporator coil, between the expansion valve and the liquid distributor. This increases the rate at which liquid refrigerant is boiled off within the evaporator coil and causes the temperature of the refrigerant leaving the coil to rise. Sensing this increased temperature, the expansion valve feeds additional refrigerant to the coil, increasing the suction pressure and temperature.

The principal advantage of hot gas bypass to the evaporator inlet is that the refrigerant velocity in the evaporator and suction line is higher at low loads. This promotes a uniform movement of oil through the evaporator coil and suction piping. When the evaporator is located above the compressor, as shown, the holdup of oil within the vertical hot-gas-bypass riser must be considered. Since the flow rate within the hot-gas-bypass line modulates over a wide range, no size of pipe can ensure adequate velocity to carry oil up the riser. Oil will collect at the base of the vertical riser when the bypass valve throttles to lower flow rates. This problem is commonly addressed by adding a small oil return line between the base of the riser and the suction line.

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Contents Air Conditioning Clinic Refrigeration Compressors Business Reply Mail Comment Card One of the Fundamental SeriesRefrigeration Compressors Preface 5HIULJHUDWLRQ&RPSUHVVRUVContents TRG-TRC004-EN Introduction 9DSRU&RPSUHVVLRQ5HIULJHUDWLRQ5HIULJHUDWLRQ&\FOH Compressor Types RPSUHVVRU7\SHV5HFLSURFDWLQJ&RPSUHVVRU Reciprocating CompressorFrpsuhvvlrq Vwurnh Rshqlqj Glvfkdujh Slvwrq 6FUROO&RPSUHVVRU Scroll CompressorMrxuqdo Lqwdnh Skdvh Frpsuhvvlrq Glvfkdujh +HOLFDO5RWDU\6FUHZ&RPSUHVVRU Helical-Rotary Screw Compressor+HOLFDO5RWDU\&RPSUHVVRU Phvklqjsrlqw HQWULIXJDO&RPSUHVVRU Centrifugal CompressorYroxwh Gliixvhu Sdvvdjhv Udgldo Lpshoohu Eodghv Uhiuljhudqw 2SHQ&RPSUHVVRU +HUPHWLF&RPSUHVVRU 6HPLKHUPHWLF&RPSUHVVRUCompressor Capacity Control 0HWKRGVRI&RPSUHVVRU8QORDGLQJ\OLQGHU8QORDGHUV Cylinder UnloadersXqordghufrqwuroohu Vrohqrlgydoyh Ydoyh DSDFLW\9HUVXV6XFWLRQ7HPSHUDWXUH RPSUHVVRU8QORDGLQJ $OWHUQDWLQJ&\OLQGHUV2QDQG2II \FOLQJ2QDQG2II \FOLQJ6FUROO&RPSUHVVRUVCycling On and Off \FOLQJ6FUROO&RPSUHVVRUV 6OLGH9DOYH Slide ValveQOHW9DQHV Inlet VanesInlet vanes presented in this section of the clinic 9DULDEOH6SHHG Variable SpeedCompressor in a System \VWHP/HYHO&RQWUROSystem-Level Control RQVWDQW9ROXPH6\VWHP 9DULDEOH$LU9ROXPH6\VWHP KLOOHGDWHU6\VWHPPreventing Evaporator Freeze-Up 6HQVLQJ6XFWLRQ7HPSHUDWXUH +RW*DV%\SDVVWRYDSRUDWRU,QOHW +RW*DV%\SDVVWR6XFWLRQ/LQH System Components clinic Review 5HYLHZ²3HULRG2QH5HYLHZ²3HULRG7ZR 5HYLHZ²3HULRG7KUHH \VWHPOHYHOFRQWUROFor more information, refer to the following references TRG-TRC004-EN Quiz Questions for PeriodAnswers Glossary Glossary Glossary Trane Company
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