翅片换热器热泵除霜技术的应用研究
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摘要
热泵技术是近年来在全世界倍受关注的新能源技术,作为热泵的重要组成部分之一,换热器的相关问题备受关注。热泵的换热器结霜除霜问题一直是热泵技术面临的难题。主要介绍了有关翅片换热器热泵除霜技术近年来研究的新进展,对翅片换热器热泵除霜技术的研究及应用现状和新发展想法作了简单的阐述,并提出参考性意见。
Heat pump technology is a new energy technology which has attracted much attention in the world in recent years.As for one of the important parts of heat pump, the related problems of heat exchanger are very concerned.The frosting and defrosting problem of heat exchanger is always the problem of heat pump technology.The article mainly introduces the related fin heat exchanger and heat pump defrosting technology research in recent years,the new development of the fin heat exchanger defrosting technology research, application status and development of new ideas are made the simple elaboration, and reference opinions are put forward.
Heat pump technology is a new energy technology which has attracted much attention in the world in recent years.As for one of the important parts of heat pump, the related problems of heat exchanger are very concerned.The frosting and defrosting problem of heat exchanger is always the problem of heat pump technology.The article mainly introduces the related fin heat exchanger and heat pump defrosting technology research in recent years,the new development of the fin heat exchanger defrosting technology research, application status and development of new ideas are made the simple elaboration, and reference opinions are put forward.
引文
[1]郭宪民.空气源热泵结霜问题的研究现状及进展[C].第十三届全国热泵与系统节能技术大会论文集,2008:169-176.
[2]Yujiro Hayashi,Kazuo Aoki,Hiroshi Yohara.Study of frost formation based on a theoretical model of the frost layer.Heat Transfer Japanese Research,1977,6(2):79-94.
[3]DL O Neal,DR Tree.A Review of Frost Formation in Simple Geometries[J].ASHRAE Trans,1985,91(2):267-282.
[4]JDYonko,CFSepsy.An Investigation of the Thermal Conductivity of Frost while Forming on A Flat Horizontal Plate[J].ASHRAE Trans,1967,73(1):1-11.
[5]YHayashi A,aoki HYuhana.Study of Frost Properties Correlation with Frost Formation Types[J].J.of Heat Transfer,1977,6(3)L79-94
[6]JDYonko,CFSepsy.An Investigation of the Thermal Conductivity of Frost while Forming on A Flat Horizontal Plate[J].ASHRAE Trans,1967,73(1):1-11
[7]YX Tao,RW Besant,KS Rezkallah.A Mathematical Model of for Predicting the Densification and Growth of Frost on a Flat Plate[J].Int.J of Heat&Mass Transfer,1993,36(2):356-363.
[8]童钧耕,杨志斌,范云良.霜层综合导热系数的研究[J].低温工程,1996,(5):46-49.
[9]查世彤,连添达,姚普明.换热器表面结霜机理分析[J].天津商学院学报,1997(4):20-25
[10]邢震.翅片管换热器霜层生长特性研究[D].天津:天津商业大学,2016.
[11]Sanders C Th.Frost formation(The influence of frost formation and defrosting on the performance of air coolers)Dissertation TU Delft[J].1974:115-119.
[12]Krakow K I,Yan L,Lin S.A Model of Hot-gas Defrosting of Evaporators-Part 1:Heat and Mass Transfer Theory[J].ASHARE Transaction,1992,98(1):451-461.
[13]李九如,韩志涛,姚杨,等.基于实验参数的空气源热泵除霜滞留表面水蒸发模型[J].上海交通大学学报,2008,42,(6):989-992.
[14]杨明涛.兼顾供热性能和除霜时间的空气源热泵除霜控制研究[D].南京:东南大学.2016
[15]Kondepudi S N,O’Neal DL.Effect of different fin configuration on the performance of inned-tubeheat exchange under forasting conditions[J].ASHRAE Trans,1990,96(2):439-444
[16]Jiankai Dong,Shiming Deng,Yiqiang Jiang,et al.An experimental study on defrosting heat supplies and energy consumptions during a reverse cycle defrost operation for an air source heat pump[J].Applied Thermal Engineering,2012,37:380-387
[17]黄东,袁秀玲,陈蕴光.节流机构对风冷热泵冷热水机组逆循环除霜时间的影响[J].西安交通大学学报,2003,37(5):512-518.
[18]郭宪民,王善云,汪伟华.环境参数对空气源热泵蒸发器表面霜层影响研究[J].西安交通大学学报,2011,45,(3):30-34.
[19]李腊芳.空气源热泵结霜工况下高效能运行研究[D].重庆:重庆大学,2013.
[20]王金龙.空气源热泵室外换热器翅片管融霜过程分析[D].上海:东华大学,2015
[21]丁兵,丁国良.翅片管式蒸发器结霜特性模拟[J].流体机械,1995,23(4):52-56.
[22]张信安.蒸发器的动态仿真[D].大连:大连海事大学,2001.
[23]刘志强,汤广发,张国强.空气源热泵蒸发器结霜过程仿真研究[J].Heating Ventilating&Air Conditionging,2004,34(9).
[2]Yujiro Hayashi,Kazuo Aoki,Hiroshi Yohara.Study of frost formation based on a theoretical model of the frost layer.Heat Transfer Japanese Research,1977,6(2):79-94.
[3]DL O Neal,DR Tree.A Review of Frost Formation in Simple Geometries[J].ASHRAE Trans,1985,91(2):267-282.
[4]JDYonko,CFSepsy.An Investigation of the Thermal Conductivity of Frost while Forming on A Flat Horizontal Plate[J].ASHRAE Trans,1967,73(1):1-11.
[5]YHayashi A,aoki HYuhana.Study of Frost Properties Correlation with Frost Formation Types[J].J.of Heat Transfer,1977,6(3)L79-94
[6]JDYonko,CFSepsy.An Investigation of the Thermal Conductivity of Frost while Forming on A Flat Horizontal Plate[J].ASHRAE Trans,1967,73(1):1-11
[7]YX Tao,RW Besant,KS Rezkallah.A Mathematical Model of for Predicting the Densification and Growth of Frost on a Flat Plate[J].Int.J of Heat&Mass Transfer,1993,36(2):356-363.
[8]童钧耕,杨志斌,范云良.霜层综合导热系数的研究[J].低温工程,1996,(5):46-49.
[9]查世彤,连添达,姚普明.换热器表面结霜机理分析[J].天津商学院学报,1997(4):20-25
[10]邢震.翅片管换热器霜层生长特性研究[D].天津:天津商业大学,2016.
[11]Sanders C Th.Frost formation(The influence of frost formation and defrosting on the performance of air coolers)Dissertation TU Delft[J].1974:115-119.
[12]Krakow K I,Yan L,Lin S.A Model of Hot-gas Defrosting of Evaporators-Part 1:Heat and Mass Transfer Theory[J].ASHARE Transaction,1992,98(1):451-461.
[13]李九如,韩志涛,姚杨,等.基于实验参数的空气源热泵除霜滞留表面水蒸发模型[J].上海交通大学学报,2008,42,(6):989-992.
[14]杨明涛.兼顾供热性能和除霜时间的空气源热泵除霜控制研究[D].南京:东南大学.2016
[15]Kondepudi S N,O’Neal DL.Effect of different fin configuration on the performance of inned-tubeheat exchange under forasting conditions[J].ASHRAE Trans,1990,96(2):439-444
[16]Jiankai Dong,Shiming Deng,Yiqiang Jiang,et al.An experimental study on defrosting heat supplies and energy consumptions during a reverse cycle defrost operation for an air source heat pump[J].Applied Thermal Engineering,2012,37:380-387
[17]黄东,袁秀玲,陈蕴光.节流机构对风冷热泵冷热水机组逆循环除霜时间的影响[J].西安交通大学学报,2003,37(5):512-518.
[18]郭宪民,王善云,汪伟华.环境参数对空气源热泵蒸发器表面霜层影响研究[J].西安交通大学学报,2011,45,(3):30-34.
[19]李腊芳.空气源热泵结霜工况下高效能运行研究[D].重庆:重庆大学,2013.
[20]王金龙.空气源热泵室外换热器翅片管融霜过程分析[D].上海:东华大学,2015
[21]丁兵,丁国良.翅片管式蒸发器结霜特性模拟[J].流体机械,1995,23(4):52-56.
[22]张信安.蒸发器的动态仿真[D].大连:大连海事大学,2001.
[23]刘志强,汤广发,张国强.空气源热泵蒸发器结霜过程仿真研究[J].Heating Ventilating&Air Conditionging,2004,34(9).