Trane TRG-TRC004-EN manual 6HQVLQJ6XFWLRQ7HPSHUDWXUH

Page 41

period three

The Compressor in a System

notes

suction temperature for a specific application depends on the system operating

conditions and the evaporator design.)

 

 

 

 

 

Evaporator freeze protection in a chilled-water application is accomplished by

 

sensing the temperature of the water in the evaporator. If the water approaches

 

32°F [0°C], the compressor is shut off to protect the evaporator from freezing.

 

Most chilled water-equipment includes this protection as part of the controls for

 

the equipment.

 

 

 

 

 

 

 

 

 

 

 

 

 

 

6HQVLQJ￿6XFWLRQ￿7HPSHUDWXUH

 

 

 

 

 

 

 

 

 

 

 

 

FRQGHQVHU

 

 

 

 

 

 

H[SDQVLRQ

VXFWLRQ

FRPSUHVVRU

 

 

YDOYH

 

 

 

 

 

 

OLQH

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

VHQVRU

 

 

 

 

 

 

 

HYDSRUDWRU

 

 

 

Figure 48

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

In a direct-expansion (DX) application, where the refrigerant in the evaporator is

 

cooling air, frost protection can be accomplished in a number of ways. As

 

mentioned, if the surface temperature of the coil gets too cold, the moisture

 

that condenses out of the air can form frost on the surface of the coil. This “coil

 

frosting” is detrimental to system performance and compressor reliability.

Historically, in DX air-conditioning applications, hot gas bypass, coil pressure regulators, and defrost cycles initiated by a timer, pressure sensor, or temperature sensor are a few of the methods that have been used to prevent evaporator frosting. This clinic will focus on two of these—a defrost cycle initiated by a temperature sensor and hot gas bypass.

A temperature sensor on the suction line leaving the evaporator is used to determine if the coil reaches a frosting condition. Compressors are turned off and the supply fan continues to run to de-ice the coil. Timers prevent the compressors from rapid cycling.

This control scheme (referred to by Trane as FROSTAT™) is especially well suited for equipment using scroll compressors, which are designed to start and stop much more often than large reciprocating compressors.

34

TRG-TRC004-EN

Page 40 Page 42
Image 41
Page 40 Page 42
Contents Air Conditioning Clinic Refrigeration Compressors Business Reply Mail One of the Fundamental Series Comment CardRefrigeration Compressors 5HIULJHUDWLRQ&RPSUHVVRUV PrefaceContents TRG-TRC004-EN 9DSRU&RPSUHVVLRQ5HIULJHUDWLRQ Introduction5HIULJHUDWLRQ&\FOH RPSUHVVRU7\SHV Compressor TypesReciprocating Compressor 5HFLSURFDWLQJ&RPSUHVVRUFrpsuhvvlrq Vwurnh Rshqlqj Glvfkdujh Slvwrq Scroll Compressor 6FUROO&RPSUHVVRUMrxuqdo Lqwdnh Skdvh Frpsuhvvlrq Glvfkdujh Helical-Rotary Screw Compressor +HOLFDO5RWDU\6FUHZ&RPSUHVVRU+HOLFDO5RWDU\&RPSUHVVRU Phvklqjsrlqw Centrifugal Compressor HQWULIXJDO&RPSUHVVRUYroxwh Gliixvhu Sdvvdjhv Udgldo Lpshoohu Eodghv Uhiuljhudqw 2SHQ&RPSUHVVRU 6HPLKHUPHWLF&RPSUHVVRU +HUPHWLF&RPSUHVVRU0HWKRGVRI&RPSUHVVRU8QORDGLQJ Compressor Capacity ControlCylinder Unloaders \OLQGHU8QORDGHUVXqordghufrqwuroohu Vrohqrlgydoyh Ydoyh DSDFLW\9HUVXV6XFWLRQ7HPSHUDWXUH RPSUHVVRU8QORDGLQJ $OWHUQDWLQJ&\OLQGHUV2QDQG2II Cycling On and Off \FOLQJ2QDQG2II\FOLQJ6FUROO&RPSUHVVRUV \FOLQJ6FUROO&RPSUHVVRUV Slide Valve 6OLGH9DOYHInlet Vanes QOHW9DQHVInlet vanes presented in this section of the clinic Variable Speed 9DULDEOH6SHHGSystem-Level Control Compressor in a System\VWHP/HYHO&RQWURO RQVWDQW9ROXPH6\VWHP KLOOHGDWHU6\VWHP 9DULDEOH$LU9ROXPH6\VWHPPreventing Evaporator Freeze-Up 6HQVLQJ6XFWLRQ7HPSHUDWXUH +RW*DV%\SDVVWRYDSRUDWRU,QOHW +RW*DV%\SDVVWR6XFWLRQ/LQH System Components clinic 5HYLHZ²3HULRG2QH Review5HYLHZ²3HULRG7ZR \VWHPOHYHOFRQWURO 5HYLHZ²3HULRG7KUHHFor more information, refer to the following references TRG-TRC004-EN Questions for Period QuizAnswers Glossary Glossary Glossary Trane Company
Top Page Image Contents