연구동향 분석
박사

Optimization of vapor injection hole in scroll compressors and performance comparison between R410A and R32 in a VRF system

조일용 2016년

논문상세정보
인용/피인용
' Optimization of vapor injection hole in scroll compressors and performance comparison between R410A and R32 in a VRF system' 의 주제별 논문영향력
논문영향력 선정 방법
논문영향력 요약
주제
  • VRF
  • Vapor Injection
  • optimization
  • scroll compressor
동일주제 총논문수 논문피인용 총횟수 주제별 논문영향력의 평균
1,042 0

0.0%

' Optimization of vapor injection hole in scroll compressors and performance comparison between R410A and R32 in a VRF system' 의 참고문헌

  • Yang M, Wang B, Li X, Shi W. Evaluation of two-phase suction, liquid injection and two-phase injection for decreasing the discharge temperature of the R32 scroll compressor. International Journal of Refrigeration 2015; 59: 269–80.
  • Yan G, Jia Q, Bai T. Experimental investigation on vapor injection heat pump with a newly designed twin rotary variable speed compressor for cold regions. International Journal of Refrigeration 2016;62:232–41.
  • Xu X, Hwang Y, Radermacher R. Refrigeration injection for heat pumping/air conditioning systems: literature review and challenges discussion. International Journal of Refrigeration 2011; 34(2): 402–15.
  • Xu X, Hwang Y, Radermacher R. Performance comparison of R410A and R32 in vapor injection cycles. International Journal of Refrigeration 2013; 36: 892–903.
  • Xu S, Ma G. Research on air-source heat pump coupled with economized vapor injection scroll compressor and ejector. International Journal of Refrigeration 2011; 34 :1587–95.
  • Xu S, Ma G, Liu Q, Liu Z. Experiment study of an enhanced vapor injection refrigeration/heat pump system using R32. Int J Thermal Sciences 2013; 68: 103– 9.
  • Winandy E, Lebrun J. Scroll compressors using gas and liquid injection: experimental analysis and modeling. International Journal of Refrigeration 2002; 25: 1143–56.
  • Wang X, Hwang Y, Radermacher R. Two-stage heat pump system with vaporinjected scroll compressor using R410A as a refrigerant. International Journal of Refrigeration2009;32: 1442–51.
  • Wang X, Hwang Y, Radermacher R. Performance investigation of refrigerant vapor injection technique for residential heat pump systems, in: International Refrigeration and Air Conditioning Conference at Purdue 2008; 2119.
  • Wang B, Shi W, Han L, Li, X. Optimization of refrigeration of refrigerant system with gas-injected scroll compressor. International Journal of Refrigeration 2009; 32: 1544–1554.
  • Wang B, Li X, Shi W. A general geometrical model of scroll compressors based on discretional initial angles of involute. International Journal of Refrigeration 2005; 28: 958–966.
  • Wang B, Li X, Shi W, Yan Q. Design of experimental bench and internal pressure measurement of scroll compressor with refrigerant injection. International Journal of Refrigeration 2007; 30: 179–186.
  • Roh CW, Yoo JW, Kim MS. Vapor refrigerant injection techniques for heat pump systems: the latest literature review and discussion. Int J Air-cond Refrig 2014; 22: 1430002.
  • Roh CW, Kim MS. Effects of intermediate pressure on the heating performance of a heat pump system using R410A vapor-injection technique. International Journal of Refrigeration 2011; 34: 1911–21.
  • Park YC, Kim Y, Cho H. Thermodynamic analysis on the performance of a variable speed scroll compressor with refrigerant injection. International Journal of Refrigeration 2002; 25: 1072–1082.
  • Park C, Lee H, Hwang Y, Radermacher R. Recent advances in vapor compression cycle technologies. International Journal of Refrigeration 2015; 60: 118–34.
  • NIST, 2001. Thermodynamic and transport properties of refrigerants and refrigerant mixtures-REFPROP Version 7.0, National Institute of Standards and Technology, Boulder, Colorado, USA.
  • Liu Y, Hung C, Chang Y. Mathematical model of bypass behaviors used in scroll compressor. Applied Thermal Engineering 2009; 29: 1058–1066.
  • Liu X, Wang B, Shi W, Zhang P. A novel vapor injection structure on the blade of a rotary compressor. Applied Thermal Engineering 2016;100:1219–28.
  • Lee H, Hwang Y, Radermacher R, Chun HH. Potential benefits of saturation cycle with two-phase refrigerant injection. Applied Thermal Engineering 2013; 56: 27– 37.
  • Jia L, Jin W, Zhang Y. Analysis of indoor environmental safety with R32 leaking from a running air conditioner. Procedia Engineering 2015; 121: 1605–12.
  • Hirano T, Matsumura N, Takeda K. Development of high efficiency scroll compressors for air conditioners. Proceeding of the International Compressor Engineering Conference at Purdue 1988; 65–74
  • Heo J, Yun R, Kim Y. Simulations on the performance of a vapor-injection heat pump for different cylinder volume ratios of a twin rotary compressor. International Journal of Refrigeration 2013; 36: 730–44.
  • Heo J, Jeong MW, Kim Y. Effects of flash tank vapor injection on the heating performance of an inverter-driven heat pump for cold regions. International Journal of Refrigeration 2010; 33: 848–55.
  • Heo J, Jeong MW, Baek C, Kim Y. Comparison of the heating performance of airsource heat pumps using* various types of refrigerant injection. International Journal of Refrigeration 2011; 34: 444–53.
  • He Y, Cao F, Wang X, Xing Z. Experimental study on the performance of a vapor injection high temperature heat pump. International Journal of Refrigeration 2015; 60: 1–8.
  • Dutta AK, Yanagisawa T, Fukuta M. An investigation of the performance of a scroll compressor under liquid refrigerant injection. International Journal of Refrigeration 2001; 24: 577–587.
  • Dardenne L, Fraccari E, Maggioni A, Molinaroli L, Proserpio L, Winandy E. Semi-empirical modeling of a variable speed scroll compressor with vapor injection. International Journal of Refrigeration 2015; 54: 76–87.
  • Cho H, Chung JT, Kim Y. Influence of liquid refrigerant injection on the performance of an inverter-driven scroll compressor. International Journal of Refrigeration 2003; 26: 87–94.
  • Cheng S, Wang S, Liu Z, Cycle performance of alternative refrigerants for domestic air-conditioning system based on a small finned tube heat exchanger. Applied Thermal Engineering 2014; 64: 83–92.
  • Banu P, Annamalai M. Review on ejector of vapor jet refrigeration system. Int J Air-cond Refrig 2014; 22: 1430003.
  • Baek C, Heo J, Jung J, Cho H, Kim Y. Performance characteristics of two-stage CO2 heat pump water heater adopting a sub-cooler vapor injection cycle at various operating conditions. Energy 2014;77:570–578.
  • Aikins K, Lee SH, Choi JM. Technology review of two-stage vapor compression heat pump system. Int J Air-cond Refrig 2013; 21: 1330002.
  • ASHRAE Guideline 2, Engineering Analysis of Experimental Data. Atlanta, GA, USA:ASHRAE;1986.
  • ANSI/ASHRAE 34. Designation and safety classification of refrigerants; 2013.
  • ANSI/AHRI Standard 1230. Performance rating of variable refrigerant flow(VRF) multi-split air-conditioning and heat pump equipment; 2010.