国内外露点间接蒸发冷却技术研究最新进展
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摘要
通过对露点间接蒸发冷却基本原理,露点蒸发冷却模型特点,相关试验研究的成果以及露点蒸发冷却空调机组的实际商业化产品的介绍,论述了国内外露点蒸发冷却技术研究的最新进展。相关研究表明,露点蒸发冷却技术在制冷空调、建筑节能领域有着巨大的应用前景。
Through the basic principles of indirect evaporative cooling of dew point,Dew point evaporative cooling model features,Related experimental research results,dew point evaporative cooling air conditioning units of the actual commercial product introduction,The latest research progress of dew point evaporative cooling technology at home and abroad is discussed.The research shows that dew point evaporative cooling technology has a huge application prospect in the field of refrigeration and air conditioning and building energy saving.
Through the basic principles of indirect evaporative cooling of dew point,Dew point evaporative cooling model features,Related experimental research results,dew point evaporative cooling air conditioning units of the actual commercial product introduction,The latest research progress of dew point evaporative cooling technology at home and abroad is discussed.The research shows that dew point evaporative cooling technology has a huge application prospect in the field of refrigeration and air conditioning and building energy saving.
引文
[1]Maisotsenko V,Gillan L E,Heaton T L,et al.Method and plate apparatus for dew point evaporative cooler:U.S.Patent 6,581,402[P].2003-6-24.
[2]夏青,黄翔,周海东,等.实现亚湿球温度的蒸发冷却空气处理流程综述[J].制冷与空调,2013,13(5):25-30.
[3]Zhao X,Li J M,Riffat S B.Numerical study of a novel counter-flow heat and mass exchanger for dew point evaporative cooling[J].Applied Thermal Engineering,2008,28(14):1942-1951.
[4]Riangvilaikul B,Kumar S.An experimental study of a novel dew point evaporative cooling system[J].Energy and Buildings,2010,42(5):637-644.
[5]Lee J,Lee D Y.Experimental study of a counter flow regenerative evaporative cooler with finned channels[J].International Journal of Heat and Mass Transfer,2013,65:173-179.
[6]Zhan C,Zhao X,Smith S,et al.Numerical study of a M-cycle cross-flow heat exchanger for indirect evaporative cooling[J].Building and Environment,2011,46(3):657-668.
[7]Zhan C,Duan Z,Zhao X,et al.Comparative study of the performance of the M-cycle counter-flow and crossflow heat exchangers for indirect evaporative coolingpaving the path toward sustainable cooling of buildings[J].Energy,2011,36(12):6790-6805.
[8]Duan Z.Investigation of a novel dew point indirect evaporative air conditioning system for buildings[D].University of Nottingham,2011.
[9]Jradi M,Riffat S.Experimental and numerical investigation of a dew-point cooling system for thermal comfort in buildings[J].Applied Energy,2014,132:524-535.
[10]Hasan A.Indirect evaporative cooling of air to a sub-wet bulb temperature[J].Applied Thermal Engineering,2010,30(16):2460-2468.
[11]Anisimov S,Pandelidis D,Danielewicz J.Numerical analysis of selected evaporative exchangers with the Maisotsenko cycle[J].Energy Conversion and Management,2014,88:426-441.
[12]Anisimov S,Pandelidis D,Jedlikowski A,et al.Performance investigation of a M(Maisotsenko)-cycle cross-flow heat exchanger used for indirect evaporative cooling[J].Energy,2014,76:593-606.
[13]Pandelidis D,Anisimov S.Numerical analysis of the selected operational and geometrical aspects of the M-cycle heat and mass exchanger[J].Energy and Buildings,2015,87:413-424.
[14]Pandelidis D,Anisimov S,Worek W M.Comparison study of the counter-flow regenerative evaporative heat exchangers with numerical methods[J].Applied Thermal Engineering,2015,84:211-224.
[15]Pandelidis D,Anisimov S,Worek W M.Performance study of counter-flow indirect evaporative air coolers[J].Energy and Buildings,2015,109:53-64.
[16]Heidarinejad G,Moshari S.Novel modeling of an indirect evaporative cooling system with cross-flow configuration[J].Energy and Buildings,2015,92:351-362.
[17]Lin J,Thu K,Bui T D,et al.Study on dew point evaporative cooling system with counterflow configuration[J].Energy Conversion and Management,2016,109:153-165.
[18]Cui X,Islam M R,Mohan B,et al.Developing a performance correlation for counter-flow regenerative indirect evaporative heat exchangers with experimental validation[J].Applied Thermal Engineering,2016,108:774-784.
[19]Rogdakis E D,Koronaki I P,Tertipis D N.Experimental and computational evaluation of a Maisotsenko evaporative cooler at Greek climate[J].Energy and Buildings,2014,70:497-506.
[20]Cui X,Chua K J,Islam M R,et al.Performance evaluation of an indirect pre-cooling evaporative heat exchanger operating in hot and humid climate[J].Energy Conversion and Management,2015,102:140-150.
[21]刘佳莉,黄翔,孙哲,等.新型复合式露点间接蒸发冷却空调机组的试验研究[J].流体机械,2014(5):61-66.
[22]宋姣姣.交叉式露点间接蒸发冷却空调机组在通信机房/基站中的应用研究[D].西安:西安工程大学,2015.
[23]蒋小强,李兴友,何华明,等.一种新型蒸发冷却空调机组的性能测试与适应性研究[J].建筑技术开发,2016,(s):119-121.
[24]王玉刚,王怡,黄翔,等.一种新型露点间接蒸发冷却器在我国不同气候区适用性的试验研究[J].流体机械,2015,43(8):68-72.
[25]毛秀明,黄翔,文力.多孔陶瓷管式露点间接蒸发冷却器实验研究[J].建筑科学,2010(4):57-61.
[26]黄翔,稽伏耀,狄育慧,等.包覆吸水性材料椭圆管式间接蒸发冷却器的理论与实验研究[J].制冷学报,2006(2):48-54.
[27]Xu P,Ma X,Zhao X,et al.Experimental investigation on performance of fabrics for indirect evaporative cooling applications[J].Building and Environment,2016,110:104-114.
[28]Bruno F.On-site experimental testing of a novel dew point evaporative cooler[J].Energy and Buildings,2011,43(12):3475-3483.
[29]Gómez E V,González A T,Martínez F J R.Experimental characterisation of an indirect evaporative cooling prototype in two operating modes[J].Applied energy,2012,97:340-346.
[30]http://101.96.8.165/wcec.ucdavis.edu/wp-content/uploads/2014/04/H80_Project Report.pdf[EB/OL].
[31]Larry Kinney.Modern Evaporative Coolers[J].Home Energy,2004:24-30
[32]KC Spivey.Laboratory Evaluation of the Seeley Climate Wizard Indirect Evaporative Cooer.Pacific Gas and Electric Company:2009.
[2]夏青,黄翔,周海东,等.实现亚湿球温度的蒸发冷却空气处理流程综述[J].制冷与空调,2013,13(5):25-30.
[3]Zhao X,Li J M,Riffat S B.Numerical study of a novel counter-flow heat and mass exchanger for dew point evaporative cooling[J].Applied Thermal Engineering,2008,28(14):1942-1951.
[4]Riangvilaikul B,Kumar S.An experimental study of a novel dew point evaporative cooling system[J].Energy and Buildings,2010,42(5):637-644.
[5]Lee J,Lee D Y.Experimental study of a counter flow regenerative evaporative cooler with finned channels[J].International Journal of Heat and Mass Transfer,2013,65:173-179.
[6]Zhan C,Zhao X,Smith S,et al.Numerical study of a M-cycle cross-flow heat exchanger for indirect evaporative cooling[J].Building and Environment,2011,46(3):657-668.
[7]Zhan C,Duan Z,Zhao X,et al.Comparative study of the performance of the M-cycle counter-flow and crossflow heat exchangers for indirect evaporative coolingpaving the path toward sustainable cooling of buildings[J].Energy,2011,36(12):6790-6805.
[8]Duan Z.Investigation of a novel dew point indirect evaporative air conditioning system for buildings[D].University of Nottingham,2011.
[9]Jradi M,Riffat S.Experimental and numerical investigation of a dew-point cooling system for thermal comfort in buildings[J].Applied Energy,2014,132:524-535.
[10]Hasan A.Indirect evaporative cooling of air to a sub-wet bulb temperature[J].Applied Thermal Engineering,2010,30(16):2460-2468.
[11]Anisimov S,Pandelidis D,Danielewicz J.Numerical analysis of selected evaporative exchangers with the Maisotsenko cycle[J].Energy Conversion and Management,2014,88:426-441.
[12]Anisimov S,Pandelidis D,Jedlikowski A,et al.Performance investigation of a M(Maisotsenko)-cycle cross-flow heat exchanger used for indirect evaporative cooling[J].Energy,2014,76:593-606.
[13]Pandelidis D,Anisimov S.Numerical analysis of the selected operational and geometrical aspects of the M-cycle heat and mass exchanger[J].Energy and Buildings,2015,87:413-424.
[14]Pandelidis D,Anisimov S,Worek W M.Comparison study of the counter-flow regenerative evaporative heat exchangers with numerical methods[J].Applied Thermal Engineering,2015,84:211-224.
[15]Pandelidis D,Anisimov S,Worek W M.Performance study of counter-flow indirect evaporative air coolers[J].Energy and Buildings,2015,109:53-64.
[16]Heidarinejad G,Moshari S.Novel modeling of an indirect evaporative cooling system with cross-flow configuration[J].Energy and Buildings,2015,92:351-362.
[17]Lin J,Thu K,Bui T D,et al.Study on dew point evaporative cooling system with counterflow configuration[J].Energy Conversion and Management,2016,109:153-165.
[18]Cui X,Islam M R,Mohan B,et al.Developing a performance correlation for counter-flow regenerative indirect evaporative heat exchangers with experimental validation[J].Applied Thermal Engineering,2016,108:774-784.
[19]Rogdakis E D,Koronaki I P,Tertipis D N.Experimental and computational evaluation of a Maisotsenko evaporative cooler at Greek climate[J].Energy and Buildings,2014,70:497-506.
[20]Cui X,Chua K J,Islam M R,et al.Performance evaluation of an indirect pre-cooling evaporative heat exchanger operating in hot and humid climate[J].Energy Conversion and Management,2015,102:140-150.
[21]刘佳莉,黄翔,孙哲,等.新型复合式露点间接蒸发冷却空调机组的试验研究[J].流体机械,2014(5):61-66.
[22]宋姣姣.交叉式露点间接蒸发冷却空调机组在通信机房/基站中的应用研究[D].西安:西安工程大学,2015.
[23]蒋小强,李兴友,何华明,等.一种新型蒸发冷却空调机组的性能测试与适应性研究[J].建筑技术开发,2016,(s):119-121.
[24]王玉刚,王怡,黄翔,等.一种新型露点间接蒸发冷却器在我国不同气候区适用性的试验研究[J].流体机械,2015,43(8):68-72.
[25]毛秀明,黄翔,文力.多孔陶瓷管式露点间接蒸发冷却器实验研究[J].建筑科学,2010(4):57-61.
[26]黄翔,稽伏耀,狄育慧,等.包覆吸水性材料椭圆管式间接蒸发冷却器的理论与实验研究[J].制冷学报,2006(2):48-54.
[27]Xu P,Ma X,Zhao X,et al.Experimental investigation on performance of fabrics for indirect evaporative cooling applications[J].Building and Environment,2016,110:104-114.
[28]Bruno F.On-site experimental testing of a novel dew point evaporative cooler[J].Energy and Buildings,2011,43(12):3475-3483.
[29]Gómez E V,González A T,Martínez F J R.Experimental characterisation of an indirect evaporative cooling prototype in two operating modes[J].Applied energy,2012,97:340-346.
[30]http://101.96.8.165/wcec.ucdavis.edu/wp-content/uploads/2014/04/H80_Project Report.pdf[EB/OL].
[31]Larry Kinney.Modern Evaporative Coolers[J].Home Energy,2004:24-30
[32]KC Spivey.Laboratory Evaluation of the Seeley Climate Wizard Indirect Evaporative Cooer.Pacific Gas and Electric Company:2009.