Geometric correlation of discharge coefficients for discharge valve system in rolling piston rotary compressor

In this study, a geometric correlation for discharge coefficient of the discharge valve system of a rolling piston compressor was proposed to predict the discharge mass flow rate. A computational fluid dynamics simulation was conducted and verified with experimental data to derive the correlation of...

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Published in	Journal of mechanical science and technology Vol. 32; no. 8; pp. 3943 - 3954
Main Authors	Min, Byungchae, Na, Sangkyung, Yang, Jangsik, Choi, Gyungmin
Format	Journal Article
Language	English
Published	Seoul Korean Society of Mechanical Engineers 01.08.2018 Springer Nature B.V 대한기계학회
Subjects	Compression ratio Computational fluid dynamics Computer simulation Control Correlation analysis Discharge coefficient Dynamical Systems Engineering Industrial and Production Engineering Mass flow rate Mechanical Engineering Pressure ratio Rolling piston compressors Simulation Vibration 기계공학 Discharge valve Performance analysis Discharge coefficient Rolling piston rotary compressor
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ISSN	1738-494X 1976-3824
DOI	10.1007/s12206-018-0745-0

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Abstract	In this study, a geometric correlation for discharge coefficient of the discharge valve system of a rolling piston compressor was proposed to predict the discharge mass flow rate. A computational fluid dynamics simulation was conducted and verified with experimental data to derive the correlation of the discharge coefficient with variations in the valve lift, valve diameter, discharge port diameter, and upstream and downstream pressure ratio of a discharge port. The discharge coefficient was dominantly affected by the geometric parameters, whereas the pressure ratio was not a dominant factor. The derived correlation, which could be applied to a wide operational range for a discharge valve system, was adopted in a compressor simulation for a rolling piston rotary compressor. The simulation results showed good agreement with experimental data. The cooling capacity, input power, and energy efficiency ratio (EER) were predicted within 10 %, and the trends agreed well over wide operating ranges for the compression ratio and compressor speed.
AbstractList	In this study, a geometric correlation for discharge coefficient of the discharge valve system of a rolling piston compressor was proposed to predict the discharge mass flow rate. A computational fluid dynamics simulation was conducted and verified with experimental data to derive the correlation of the discharge coefficient with variations in the valve lift, valve diameter, discharge port diameter, and upstream and downstream pressure ratio of a discharge port. The discharge coefficient was dominantly affected by the geometric parameters, whereas the pressure ratio was not a dominant factor. The derived correlation, which could be applied to a wide operational range for a discharge valve system, was adopted in a compressor simulation for a rolling piston rotary compressor. The simulation results showed good agreement with experimental data. The cooling capacity, input power, and energy efficiency ratio (EER) were predicted within 10 %, and the trends agreed well over wide operating ranges for the compression ratio and compressor speed. KCI Citation Count: 0 In this study, a geometric correlation for discharge coefficient of the discharge valve system of a rolling piston compressor was proposed to predict the discharge mass flow rate. A computational fluid dynamics simulation was conducted and verified with experimental data to derive the correlation of the discharge coefficient with variations in the valve lift, valve diameter, discharge port diameter, and upstream and downstream pressure ratio of a discharge port. The discharge coefficient was dominantly affected by the geometric parameters, whereas the pressure ratio was not a dominant factor. The derived correlation, which could be applied to a wide operational range for a discharge valve system, was adopted in a compressor simulation for a rolling piston rotary compressor. The simulation results showed good agreement with experimental data. The cooling capacity, input power, and energy efficiency ratio (EER) were predicted within 10 %, and the trends agreed well over wide operating ranges for the compression ratio and compressor speed.
Author	Yang, Jangsik Min, Byungchae Choi, Gyungmin Na, Sangkyung
Author_xml	– sequence: 1 givenname: Byungchae surname: Min fullname: Min, Byungchae organization: School of Mechanical Engineering, Pusan National University – sequence: 2 givenname: Sangkyung surname: Na fullname: Na, Sangkyung organization: School of Mechanical Engineering, Pusan National University – sequence: 3 givenname: Jangsik surname: Yang fullname: Yang, Jangsik organization: Rolls Royce University Technology Centre, Pusan National University – sequence: 4 givenname: Gyungmin surname: Choi fullname: Choi, Gyungmin email: choigm@pusan.ac.kr organization: School of Mechanical Engineering, Pusan National University
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Cites_doi	10.1016/j.ijrefrig.2012.08.027 10.1016/j.applthermaleng.2007.08.008 10.1016/j.ijrefrig.2009.07.005 10.1115/1.1362320 10.1016/j.ijrefrig.2015.02.007 10.1016/j.ijrefrig.2016.06.020 10.1016/j.ijrefrig.2004.02.008 10.1007/s12206-017-1147-4 10.1016/1359-4311(96)00013-0 10.1016/j.ijrefrig.2012.07.015
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Keywords	Discharge valve Performance analysis Discharge coefficient Rolling piston rotary compressor
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SubjectTerms	Compression ratio Computational fluid dynamics Computer simulation Control Correlation analysis Discharge coefficient Dynamical Systems Engineering Industrial and Production Engineering Mass flow rate Mechanical Engineering Pressure ratio Rolling piston compressors Simulation Vibration 기계공학
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Title	Geometric correlation of discharge coefficients for discharge valve system in rolling piston rotary compressor
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