冷凝热再生式溶液除湿空调系统研究
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摘要
传统的压缩式制冷空调系统为创造室内舒适的生活和工作环境作出了很大的贡献,但是相应地也带来了一些负面的影响,特别是大大地加重了能源和环境方面的负担。因此,当前研究开发新型节能、环保的空调系统显得尤为紧迫。本文提出了冷凝热再生式溶液除湿空调系统,将传统的压缩式制冷系统与溶液除湿系统相结合,利用溶液除湿,再利用冷凝热实现溶液再生,达到了空调制冷系统节能降耗的目的。
对除湿溶液的物理性质进行了研究,结合经济性,给出了除湿溶液的选择原则,确定了氯化锂溶液为本课题的除湿剂。
搭建了冷凝热再生式溶液除湿空调系统,采用实验研究和数值模拟的方法对系统两个主要部件——除湿器和再生器的性能进行研究。
在实验系统现场测试了叉流除湿器的传热传质性能,得到空气和溶液入口参数对除湿性能的影响关系。采用逐步多元回归方法处理实验数据,给出了除湿器传热传质系数,以及评价除湿器性能指标——除湿效率和除湿量与溶液和空气入口参数的函数关系式,为理论研究和工程应用提供了有益参考。
在传热传质理论的基础上,建立了交叉流除湿器内部溶液与空气的热质交换数学模型,通过离散数值求解的方法,得到了描述除湿器内部溶液与空气参数的分布规律,对除湿器性能研究有一定的指导作用。
在蒸发式冷凝器盘管表面喷淋稀溶液,利用蒸发冷凝原理实现溶液再生。通过对蒸发式冷凝再生器传热传质性能的实验研究,得到空气、溶液入口参数及制冷剂参数对再生性能的影响规律,并回归得到再生器传热传质系数的经验公式,为设计和优化蒸发式冷凝再生器提供理论依据。
建立了蒸发式冷凝再生器热质交换二维数学模型,得到溶液、空气和制冷剂三种流体各参数在再生器内部的二维分布规律。用实验数据验证数学模型,经过比较,发现模拟结果与实验结果吻合较好,表明数学模型可以实现对蒸发式冷凝再生器部件的性能研究。
研究结果表明,在夏季新风需要进行除湿处理的空调系统中,采用冷凝热再生式溶液除湿空调技术具有明显的节能效果,蒸发式冷凝再生器的特性对系统性能起着重要的影响作用。
Conventional vapour compression refrigeration system is used to create comfortable living and working environment. However, it has adverse impact on energy consumpsion and outdoor environment. High energy consumption and high environmental pollution are two major disadvantages of such system. So it is urgent to develop a kind of air conditioning system with energy-conservation and economized electricity character. Liquid desiccant air conditioning system with condensing heat regeneration was presented in this paper, which integrated vapour compression refrigeration system and liquid desiccant system. The heat rejected from the condenser was used to regenerate the liquid desiccant to improve the performance of system and conserve energy.
The thermo-physical properties of liquid desiccant were presented. Combining with economic analysis, the principle of selection of liquid desiccant was provided. And lithium chloride(LiCl)was choused as a desiccant for dehumidification in this paper.
Liquid desiccant air conditioning system with condensing heat regeneration was established. This paper presented the experimental tests and the numerical simulation on the main components of system dehumidifier as well as regenerator.
Experiment was carried out to test heat and mass transfer performance of cross-flow dehumidifier using metal packing. The effects of air flow rate, solution flow rate and inlet parameters of air and solution on the outlet parameters were also investigated. And a great deal of data obtained from experiment was processed using multiple linear regression method. Several empirical formulas were given, i.e. coefficient of heat and mass transfer, the rates and efficiency of dehumidification evaluating performance of dehumidifier, which provided good reference and necessary information for further theoretical investigation.
A mathematical model of cross-flow dehumidifier describing heat and mass transfer between air and liquid desiccant was set up. Taking the heat and mass transfer coefficients achieved from experiments as the input parameter of the model, the parameter distribution of air and liquid desiccant on the packing surface were described, which is of reference and guiding significance to the performance analysis of dehumidifier.
Weak solution was sprayed on the tube bundle of evaporative condenser. Liquid solution was regenerated utilizing evaporation condensation mechanism. Performance of evaporative condensing regenerator was studied experimentally. The influences of inlet parameters such as air, solution and refrigerant on the performance of regenerator were discussed. Heat and mass transfer coefficient of regenerator was correlated with air flow rate, solution flow rate, inlet air temperature and inlet solution concentration. The results had great value in the design and improvement of evaporative condensing regenerator.
A two dimensional steady state model was developed and solved numerically to predict the performance of evaporative condensing regenerator. Two dimensional parameters distribution of air, solution and refrigerant were calculated by the mathematical model. The experimental results were used to validate mathematical model. It indicated that the simulation results agreed with experimental data well. The results showed that the mathematical model could be used to predict the performance of regenerator.
Research results demonstrated that liquid desiccant air conditioning system with condensing heat regeneration had remarkable energy saving effect when it was used to reduce the moisture content of fresh air in summer, and characteristics of evaporative condensing regenerator played an important role in performance of system.
对除湿溶液的物理性质进行了研究,结合经济性,给出了除湿溶液的选择原则,确定了氯化锂溶液为本课题的除湿剂。
搭建了冷凝热再生式溶液除湿空调系统,采用实验研究和数值模拟的方法对系统两个主要部件——除湿器和再生器的性能进行研究。
在实验系统现场测试了叉流除湿器的传热传质性能,得到空气和溶液入口参数对除湿性能的影响关系。采用逐步多元回归方法处理实验数据,给出了除湿器传热传质系数,以及评价除湿器性能指标——除湿效率和除湿量与溶液和空气入口参数的函数关系式,为理论研究和工程应用提供了有益参考。
在传热传质理论的基础上,建立了交叉流除湿器内部溶液与空气的热质交换数学模型,通过离散数值求解的方法,得到了描述除湿器内部溶液与空气参数的分布规律,对除湿器性能研究有一定的指导作用。
在蒸发式冷凝器盘管表面喷淋稀溶液,利用蒸发冷凝原理实现溶液再生。通过对蒸发式冷凝再生器传热传质性能的实验研究,得到空气、溶液入口参数及制冷剂参数对再生性能的影响规律,并回归得到再生器传热传质系数的经验公式,为设计和优化蒸发式冷凝再生器提供理论依据。
建立了蒸发式冷凝再生器热质交换二维数学模型,得到溶液、空气和制冷剂三种流体各参数在再生器内部的二维分布规律。用实验数据验证数学模型,经过比较,发现模拟结果与实验结果吻合较好,表明数学模型可以实现对蒸发式冷凝再生器部件的性能研究。
研究结果表明,在夏季新风需要进行除湿处理的空调系统中,采用冷凝热再生式溶液除湿空调技术具有明显的节能效果,蒸发式冷凝再生器的特性对系统性能起着重要的影响作用。
Conventional vapour compression refrigeration system is used to create comfortable living and working environment. However, it has adverse impact on energy consumpsion and outdoor environment. High energy consumption and high environmental pollution are two major disadvantages of such system. So it is urgent to develop a kind of air conditioning system with energy-conservation and economized electricity character. Liquid desiccant air conditioning system with condensing heat regeneration was presented in this paper, which integrated vapour compression refrigeration system and liquid desiccant system. The heat rejected from the condenser was used to regenerate the liquid desiccant to improve the performance of system and conserve energy.
The thermo-physical properties of liquid desiccant were presented. Combining with economic analysis, the principle of selection of liquid desiccant was provided. And lithium chloride(LiCl)was choused as a desiccant for dehumidification in this paper.
Liquid desiccant air conditioning system with condensing heat regeneration was established. This paper presented the experimental tests and the numerical simulation on the main components of system dehumidifier as well as regenerator.
Experiment was carried out to test heat and mass transfer performance of cross-flow dehumidifier using metal packing. The effects of air flow rate, solution flow rate and inlet parameters of air and solution on the outlet parameters were also investigated. And a great deal of data obtained from experiment was processed using multiple linear regression method. Several empirical formulas were given, i.e. coefficient of heat and mass transfer, the rates and efficiency of dehumidification evaluating performance of dehumidifier, which provided good reference and necessary information for further theoretical investigation.
A mathematical model of cross-flow dehumidifier describing heat and mass transfer between air and liquid desiccant was set up. Taking the heat and mass transfer coefficients achieved from experiments as the input parameter of the model, the parameter distribution of air and liquid desiccant on the packing surface were described, which is of reference and guiding significance to the performance analysis of dehumidifier.
Weak solution was sprayed on the tube bundle of evaporative condenser. Liquid solution was regenerated utilizing evaporation condensation mechanism. Performance of evaporative condensing regenerator was studied experimentally. The influences of inlet parameters such as air, solution and refrigerant on the performance of regenerator were discussed. Heat and mass transfer coefficient of regenerator was correlated with air flow rate, solution flow rate, inlet air temperature and inlet solution concentration. The results had great value in the design and improvement of evaporative condensing regenerator.
A two dimensional steady state model was developed and solved numerically to predict the performance of evaporative condensing regenerator. Two dimensional parameters distribution of air, solution and refrigerant were calculated by the mathematical model. The experimental results were used to validate mathematical model. It indicated that the simulation results agreed with experimental data well. The results showed that the mathematical model could be used to predict the performance of regenerator.
Research results demonstrated that liquid desiccant air conditioning system with condensing heat regeneration had remarkable energy saving effect when it was used to reduce the moisture content of fresh air in summer, and characteristics of evaporative condensing regenerator played an important role in performance of system.
引文
[1]龙惟定,国内建筑合理用能的现状及展望,能源工程,2001,(2):1~6
[2]杨善勤,郎四维,涂逢祥,建筑节能,北京:中国建筑工业出版社,1999,10~62
[3]刘笑一,上海住宅将跨入节能新天地,中国房地产报,2002年9月6日
[4]刘晓华,江亿等著,温湿度独立控制空调系统,北京:中国建筑工业出版社,2006. 36~42
[5]黄翔,面向环保、节能、经济及室内空气品质联合挑战的蒸发冷却技术,建筑热能通风空调,2003,(4):1~3
[6]余宇峰,康侍民,徐小林,现有空调系统的几个健康安全问题及解决方案,制冷与空调, 2004,(3):30~32
[7]顾洁,氯化锂吸收除湿设备性能的分析与研究,西安:西安建筑科技大学,2004
[8] R.E.Treybal,Adiabatic gas absorption and stripping in packed towers,Industrial and Engineering Chemistry,1969,61(7):61~68
[9] H.M. Factor,Gershon Grossman,A packed bed dehumidifier/regenerator for solar air conditioning with liquid desiccants,Solar Energy,1980,24(6):541~550
[10] P.Gandhidasan,C.F.Kettleborough,M.Rifat Ullah,Calculation of heat and mass transfer coefficients in a packed tower operating with a desiccant-air contact system,Solar Energy Engineering,1986,108(2):123~127
[11] P.Gandhidasan,U.Rifat Ullah,C.F.Kettleborough,Analysis of heat and mass transfer between a desiccant air system in a packed tower,Transactions of the ASME Journal of Solar Energy Engineering,1987,109(5):89~93
[12] A.Y.Khan,H.D.Ball,Development of a generalized model lbr performance evaluation of packed-type liquid sorbent dehumidifiers and regener-ators,ASHRAE Transactions,1998,6(3):525~533
[13] Khan A.Y.,Sensitivity analysis and component modeling of a packed-type liquid desiccant system at partial load operating conditions,International Journal of Energy Research,1994,(18):643~655
[14] D.I.Stevens,J.E.Braun,S.A.Klein,An effectiveness model of liquid desiccant system heat/mass exchangers,Solar Energy,1989,42(6):449~455
[15] M.Sadasivam,A.R.Balakrishnan,Effectiveness-NTU method for design of a packed bed liquid desiccant dehumidifiers,Transactions of the Institution of Chemical Engineers,1992,70(9):572~577
[16]路则锋,陈沛霖,逆流填料式吸收除湿系统传热传质过程的分析解法及应用,太阳能学报,2000,21(4):39~46
[17]陈晓阳,溶液式空调系统的应用研究:[硕士学位论文],北京;清华大学,2005
[18]赵云,太阳能液体除湿空调系统的研究:[博士学位论文],南京;东南大学,2002
[19] Grossman G.,Simultaneous heat and mass transfer in film absorption under laminar flow,International Journal of Heat and Mass Transfer,1983,26(3):357~371
[20] Grossman G.,Simultaneous heat and mass transfer in absorption of gases in turbulent liquid films,International Journal of Heat and Mass Transfer,1984,27(12):2365~2376
[21] Park M S,Howell J R,Vliet GC,Peterson J,Numerical and experimental results for coupled heat and mass-transfer between a desiccant film and air in cross-flow,International Journal of Heat and Mass Transfer,1994,37(S1):395~402
[22] Ali A,Vafai K,Khaled A R A,Comparative study between parallel and counter flow configurations between air and falling film desiccant in the presence of nanoparticle suspensions,International Journal of Energy Research,2003,27(8):725~745
[23]代彦军,张鹤飞,俞金娣,错流降膜液体干燥剂除湿/再生传热传质数学模型及分析,化工学报,2001,52(5):510~515
[24] Dai Y J,Zhang H F,Numerical simulation and theoretical analysis of heat and mass transfer in a cross flow liquid desiccant air dehumidifier packed with honeycomb paper,Energy Conversion & Management,2004,45(9~10):1343~1356
[25]张村,施明恒,对流边界条件下竖板降膜除湿过程中传热传质的数值模拟,制冷与空调,2004,4(4):21~25
[14] D.I.Stevens,J.E.Braun,S.A.Klein,An effectiveness model of liquid desiccant system heat/mass exchangers,Solar Energy,1989,42(6):449~455
[15] M.Sadasivam,A.R.Balakrishnan,Effectiveness-NTU method for design of a packed bed liquid desiccant dehumidifiers,Transactions of the Institution of Chemical Engineers,1992,70(9):572~577
[16]路则锋,陈沛霖,逆流填料式吸收除湿系统传热传质过程的分析解法及应用,太阳能学报,2000,21(4):39~46
[17]陈晓阳,溶液式空调系统的应用研究:[硕士学位论文],北京;清华大学,2005
[18]赵云,太阳能液体除湿空调系统的研究:[博士学位论文],南京;东南大学,2002
[19] Grossman G.,Simultaneous heat and mass transfer in film absorption under laminar flow,International Journal of Heat and Mass Transfer,1983,26(3):357~371
[20] Grossman G.,Simultaneous heat and mass transfer in absorption of gases in turbulent liquid films,International Journal of Heat and Mass Transfer,1984,27(12):2365~2376
[21] Park M S,Howell J R,Vliet GC,Peterson J,Numerical and experimental results for coupled heat and mass-transfer between a desiccant film and air in cross-flow,International Journal of Heat and Mass Transfer,1994,37(S1):395~402
[22] Ali A,Vafai K,Khaled A R A,Comparative study between parallel and counter flow configurations between air and falling film desiccant in the presence of nanoparticle suspensions,International Journal of Energy Research,2003,27(8):725~745
[23]代彦军,张鹤飞,俞金娣,错流降膜液体干燥剂除湿/再生传热传质数学模型及分析,化工学报,2001,52(5):510~515
[24] Dai Y J,Zhang H F,Numerical simulation and theoretical analysis of heat and mass transfer in a cross flow liquid desiccant air dehumidifier packed with honeycomb paper,Energy Conversion & Management,2004,45(9~10):1343~1356
[25]张村,施明恒,对流边界条件下竖板降膜除湿过程中传热传质的数值模拟,制冷与空调,2004,4(4):21~25
[39] W.Y.Saman,S.Alizadeh,Modelling and performance analysis of across-flow type plate heat exchanger for dehumidification/cooling,Solar Energy,2000,(7):63~70
[40] W.Y.Saman,S.Alizadeh,An Experimental study of a cross-flow type Plate heat exchanger for dehumidification/cooling,Solar Energy,2001,73(1):59~71
[41] S.Allizadeh,W.Y.Saman,Modeling and performance of a forced-flow solar collector/regenerator using liquid desiccant,Solar Energy,2002,72(2):143~154
[42] Gandhidasan P,Ullah M R,Kettleborough C F,Analysis of heat and mass transfer between a desiccant-air system in a packed tower,Journal of Solar Energy Engineering Transactions of the ASME,1987,109(2):89~93
[43] G.O.G.Lof,Cooling with solar energy,Congress on solar energy,Tuscon,Arizona,1995. 171~189
[44] S.Alizadeh,W.Y.Saman,An Experimental study of a forced flow solar collector/regenerator using liquid desiccant,Solar Energy,2002,73 (5):. 345~362
[45] V.?berg,D.Y. Goswami,Experimental study of the heat and mass transfer in a packed bed liquid desiccant air dehuminfier , Journal of Solar Energy Engineering,1998,17(5):289~297
[46] Sanjeev Jaina P.L.,Dhara S.C.,Kaushik,Experimental studies on the dehumidifer and regenerator of a liquid desiccant cooling system,Applied Thermal Engineering,2000,(20):253 ~267
[47] Ertas A,Anderson E E,Kiris I,Properties of a new liquid desiccant solution lithium chloride and calcium chloride mixture,Solar Energy,1992,49(3): 205~212
[48] Yang R.,Wang P.L.,Experimental study of a forced convection solar collector/regenerator for open cycle absorption cooling , Solar Energy Engineering,1994,(116):194~199
[49]孙键,施明恒,赵云,吸收除湿空调再生性能的实验研究,工程热物理学报,2003,24(5):867~869
[50]赵云,施明恒,太阳能吸收除湿空调系统中除湿剂的选择,工程热物理学报,2001,22(3):165~168
[51]刘晓华,江亿,常晓敏等,溶液除湿空调系统中叉流再生装置热质交换性能分析,暖通空调,2005,35(12):10~15
[52] Armando C.Oliveira,Clito F Afonso,Saffa B.Riffat et al.,Thermal performance of a novel air conditioning system using a liquid desiccant,Applied Thermal Engineering,2000,(20):1213~1223
[53] F.N. Ani,E.M. Badawi,K.S. Kannan,The effect of absorber packing height on the performance of a hybrid liquid desiccant system,Renewable Energy,2005. 2247~2256
[54] (o|¨)berg V.,Goswami D.Y.,Performance simulation of solar hybrid liquid desiccant cooling for ventilation air preconditioning, Proceedings of the International Solar Energy Engineering Conference In Solar Engineering,1998. 176~182
[55] (o|¨)berg V.,Goswami D. Y.,Experimental study of the heat and mass transfer in a packed bed liquid desiccant air dehumidifier,Solar Energy Eng,Trans. ASME 120,289~297
[56] (o|¨)berg V.,Goswami D.Y.,A review of liquid desiccant cooling,In Advances in Solar Energy,(12):431~470
[57] Chengchao F.,Ketao S.,Analysis and modeling of solar liquid desiccant air conditioning system,Taiyangneng Xuebao/Acta Energiae Sinica,1997,18(2),128~133
[58] Ahmed C S K,Gandhidasan P,Al-Farayedhi A A,Simulation of a hybrid liquid desiccant based air-conditioning system,Applied Thermal Engineering,1997,17(2):125~134
[59]朱瑞棋,张俊华,CaCl2水溶液去湿型空调系统研究,低温工程,1991,(1)
[60]方承超,孙克涛,太阳能吸收除湿空调系统模型的建立与分析,太阳能学报,1997,18(2):128~133
[61]代彦军,张鹤飞,俞金娣,错流降膜液体干燥剂除湿/再生传热传质数学模型及分析,化工学报,2001,52(5):510~515
[62] Dai Y J,Zhang H F,Numerical simulation and theoretical analysis of heat and mass transfer in a cross flow liquid desiccant air dehumidifier packed with honeycomb paper,Energy Conversion & Management,2004,45(9):1343~1356
[63]熊军,刘泽华,寇广孝,燃气驱动液体除湿空调系统及其节能分析,煤气与热力,2004,24(8):448~450
[64]顾卫国,液体除湿空调系统实验研究:[硕士学位论文],上海;上海理工大学,2005
[65] GOG.L(o|¨)f,Cooling with solar energy,Congress on Solar Energy,1955
[66] Patnaik S et al.,Experimental studies with a solar open cycle liquid desiccant system,Proceedings of the ISES Solar World Congress,Hamburg,West Germany,1987
[67] Adnan.A.Kinsara,Parametric study of an energy efficient air conditioning system using liquid desiccant,Applied Thermal Engineering,1997,18(5):327~335
[68] W. Kessling,E. Laevemann,M. Peltzer.,Energy storage in open cycle liquid desiccant cooling system,Int J. Refrig,1998,21(2):150~156
[69]冯毅,谭盈科,李宗楠,太阳能驱动的吸附除湿空调系统的研究,太阳能学报,2000,21(3):265~268
[70]赵荣义,范存养,薛殿华等,空气调节,北京:中国建筑工业出版社,2000. 104~106
[71]张立志,除湿技术,北京:化学工业出版社,2005. 193~194
[72]王明华,LiCl液体吸收式除湿系统的研究:[硕士学位论文],北京;北京化工大学,2005
[73]赵云,施明恒,太阳能液体除湿空调系统中除湿剂的选择,工程热物理学报(增刊),2001,(22):165~168
[74]张伟荣,刘晓华,李震等,溶液除湿空调盐溶液物性研究,全国暖通空调制冷学术年会资料摘要集(1),2004
[75] K J Kim,T A Ameel,B D Wood,Performance evaluations of LiCl and LiBr for aborber design applications in the open-cycle absorption refrigeration system, Journal of Solar Energy Engineering,1997,(119):165~173
[76] Kaita Y. Thermodynamic properties of lithium bromide-water solutions at high temperatures. International Journal of Refrigeration,2001,24(5):374~390
[77] Chua H.T.,Toh H.K.,Malek A.,Ng K.C.,Srinivasan K.,Improved thermodynamic property fields of LiBr-H2O solution,International Journal of Refrigeration,2000,23(6):412~429
[78] Ertas A,Anderson E E,Kiris I,Properties of a new liquid desiccant solution lithium chloride and calcium chloride mixture,Solar Energy,1992,49(3): 205~212
[79] Ahmed S Y,Gandhidasan P,Al-Farayedhi A A.,Thermodynamic analysis of liquid desiccants,Solar Energy,1998,62(1):11~18
[80]孙健,宫小龙,施明恒,除湿溶液蒸气压的研究,制冷学报,2004,(1):27~30
[81] Conde M R.,Properties of aqueous solutions of lithium and calcium chlorides:formulations for use in air conditioning equipment design, International Journal of Thermal Sciences,2004,43(4):367~382
[82] F.w. Yu,K.t.Chan,Improved condenser design and condenser-fan peration for air-cooled chillers,Applied Energy,2006,(83):628~648
[83]吴尉德,基于热回收技术的除湿供冷空调系统:[硕士学位论文],上海;同济大学,2004
[84]王伟,马最良,空调冷凝热回收热水供应系统计算机模拟分析,哈尔滨工业大学学报,2005,37(2):252~254
[85]王越,空调系统冷凝热回收石蜡基相变材料的试验研究,流体机械,2004,32(10):57~59
[86]刘晓华,溶液调湿式空气处理过程中热湿耦合传递特性分析:[博士学位论文],北京;清华大学,2007
[87]彦启森,空气调节用制冷技术,北京:中国建筑工业出版社,2001. 62~63.
[88]晏刚,马贞俊,周晋等,蒸发式冷凝器的设计与应用,制冷与空调,2003,(3):43~45
[89] Rohesnow W.M.,Choi H.Y.,Heat,mass and momentum transfer,Prentice-Hall Inc,1961
[90] R.O. Parker, R.E. Treybal, The heat-mass transfer characteristics of evaporative coolers, Chemical Engineering Progress Symposium Series,1962,57(32):138~149
[91] Ala Hasan,Performance investigation of plain and finned tube evaporatively cooled heat exchangers,Applied Thermal Engineering,2003,(23):325~340
[92]刘乃鸿,工业塔新型规整填料应用手册,天津:天津大学出版社,1993,44 ~56
[93]张文敏,董谊仁等,金属板波纹填料结构参数对液体分布性能的影响,化学工程,1992,20(2):64~71
[94]陈敏恒,丛德滋,方图南等,化工原理(下册),北京:化工工业出版社,2004. 191~195
[95] Abdulghani A,Al-Farayedhi,P.Gandhidasan,etal,Ealuation of heat and mass transfer coefficients in a gauze-type structured packing air dehumifier operating with liquid desiccant,International Journal of Refrigeration,2002,(25):330~339
[96]刘建新,白鹏,王世昌,基于不同模型的规整填料塔设计计算,石油化工设备,2001,30(1):30~33
[97]黄洁,郭维光,张学,金属孔板波纹填料的传质计算,化工设计,1998,(6):16~20
[98]刘光启,马连湘,邢志有等,化工物性算图手册,北京:化学工业出版社,2002,63~64
[99] Ullah M.R.,Kettleborough C.F.,Gandhidasan P.,Effectiveness of moisture removal for an adiabatic counterflow packed tower absorber operating with CaCl2-air contact system,Journal of Solar Energy Engineering,1998,(110):98~101
[100] Martin V.,Goswami D.Y.,Effectiveness of heat and mass transfer processes in a packed bed liquid desiccant dehumidifier/regenerator,HVAC&R Research,2000,6 (1):21~39
[101]田胜元,萧日嵘,实验设计与数据处理,北京:中国建筑工业出版社,2000. 138~141
[102]余锦华,杨维权,多元统计分析与应用,广州:中山大学出版社,2005. 87~125
[103]孙贺江,新型循环直燃机性能研究:[博士学位论文],天津;天津大学,2004
[104]李广,溴化锂制冷机吸收器吸收效果对机组特性影响的研究:[硕士学位论文],北京;北京建筑工程学院,2006
[105] Abdulghani A. Al-Farayedhi,P.Gandhidasan,M.A.Al-Mutairi,Evaluation of heat and mass transfer coefficients in a gauze-type structured packing air dehumidifier operating with liquid desiccant , International Journal of Refrigeration,2002,(25):330~339
[106] Chung TW,Ghosh TK,Hines AL.,Comparison between random and structured packings for dehumidification of air by lithium chloride solutions in a packed column and their heat and mass transfer correlations,Ind Eng Chem Res,1996,35(1):192~198
[107] ARSHAD Y.Khan,Jorge L. Martinez,Modeling and parametric analysis of heat and mass transfer performance of a hybrid liquid desiccant absorber,Energy Convers. Mgmt,1998,39(10):1095~1112
[108] G.A.Longo,A.Gasparella,Experimental and theoretical analysis of heat and mass transfer in apacked column dehumifier/regenerator with liquid desiccant,International Journal of Heat and Mass Transfer,2005,(48):5240~5254
[109] D.Pietruschka,U.Eicker,M.Huber,J.Schumacher,Experimental performance analysis and modeling of liquid desiccant cooling systems for air conditioning in residential buildings,International Journal of Refrigeration,2006,(29):110~124
[110] Khan A Y.,Sensitivity analysis and component modeling of a packed-type liquid desiccant system at partial load operating-conditions,International Journal of Energy Research,1994,18(7):643~655
[111] Factor H M,Grossman G.,A packed bed dehumidifier/regenerator for solar air conditioning with liquid desiccants,Solar Energy,1980,24(6):541~550
[112] Ren Chenqin,Jiang Yi,Zhang Yianpin,Simplified analysis of coupled heat and mass transfer processes in packed bed liquid desiccant-air contact system,Solar Energy,2006,(80):121~131
[113] Gershon Grossman,Solar-Powered systems for cooling,dehumdification and air-conditioning,Solar Energy,2002,72(1):53~62
[114]杨强生,浦保荣,高等传热学(第二版),上海:上海交通大学出版社,2004. 117~130
[115]杨世铭,陶文铨,传热学(第三版),北京:高等教育出版社,1998. 288~295
[116]连之伟,张寅平,陈宝明等,热质交换原理与设备,北京:中国建筑工业出版社,2001. 31~32
[117]周景锋,基于蒸发式冷凝器的热泵式海水淡水系统技术研究:[硕士学位论文],西安;西北工业大学,2005
[118]由世俊,空调用金属填料传热传质性能的实验研究与相关理论研究:[博士学位论文],天津;天津大学,2003
[119]胡键伟,汤怀民,微分方程数值解法,北京:科学出版社,1999. 119~128
[120]颜庆津,数值分析,北京:北京航空航天大学出版社,2000. 323~327
[121]陶文铨,数值传热学(第2版),西安:西安交通大学出版社,2001. 48~69
[122]丁国良,张春路,制冷空调装置智能仿真,北京:科学出版社,2002. 103~128
[123]丁国良,张春路,制冷空调装置仿真与优化,北京:科学出版社,2001. 31~35
[124]刘浩,张春路,丁国良,结合人工神经网络的冷凝器稳态分布参数模型,上海交通大学学报,2000,34(9),1187~1190
[125]赵明峰,小型制冷装置冷凝器的仿真与实验研究:[硕士学位论文],杭州;浙江大学,2004
[126] Bilal A. Qureshi,Syed M.Zubair,A comprehensive design and rating study of evaporative coolers and condensers(Part I):Performance evaluation,International Journal of Refrigeration,2006,(29):645~658
[127] W. Zalewski,P.A. Gryglaszewski,Mathematical model of heat and mass transfer processes in evaporative fluid coolers,Chem Eng Proc,1997,(36):271~280
[128] Yunho Hwang,Reinhard Radermacher,William Kopko,An experimental evaluation of aresidential-sized evaporatively cooled condenser,International Journal of Refrigeration,2001,(24):238~249
[129]沈家龙,蒸发式冷凝器传热传质理论分析及实验研究:[硕士学位论文],广州;华南理工大学,2005
[130]唐伟杰,张旭,大型工业用蒸发式冷却器的换热模型与仿真,制冷空调与电力机械,2005,26(101):8~11
[131]郝亮,阚杰,袁秀玲,蒸发式冷凝器稳态模型数值模拟,制冷与空调,2005,5(4):31~34
[2]杨善勤,郎四维,涂逢祥,建筑节能,北京:中国建筑工业出版社,1999,10~62
[3]刘笑一,上海住宅将跨入节能新天地,中国房地产报,2002年9月6日
[4]刘晓华,江亿等著,温湿度独立控制空调系统,北京:中国建筑工业出版社,2006. 36~42
[5]黄翔,面向环保、节能、经济及室内空气品质联合挑战的蒸发冷却技术,建筑热能通风空调,2003,(4):1~3
[6]余宇峰,康侍民,徐小林,现有空调系统的几个健康安全问题及解决方案,制冷与空调, 2004,(3):30~32
[7]顾洁,氯化锂吸收除湿设备性能的分析与研究,西安:西安建筑科技大学,2004
[8] R.E.Treybal,Adiabatic gas absorption and stripping in packed towers,Industrial and Engineering Chemistry,1969,61(7):61~68
[9] H.M. Factor,Gershon Grossman,A packed bed dehumidifier/regenerator for solar air conditioning with liquid desiccants,Solar Energy,1980,24(6):541~550
[10] P.Gandhidasan,C.F.Kettleborough,M.Rifat Ullah,Calculation of heat and mass transfer coefficients in a packed tower operating with a desiccant-air contact system,Solar Energy Engineering,1986,108(2):123~127
[11] P.Gandhidasan,U.Rifat Ullah,C.F.Kettleborough,Analysis of heat and mass transfer between a desiccant air system in a packed tower,Transactions of the ASME Journal of Solar Energy Engineering,1987,109(5):89~93
[12] A.Y.Khan,H.D.Ball,Development of a generalized model lbr performance evaluation of packed-type liquid sorbent dehumidifiers and regener-ators,ASHRAE Transactions,1998,6(3):525~533
[13] Khan A.Y.,Sensitivity analysis and component modeling of a packed-type liquid desiccant system at partial load operating conditions,International Journal of Energy Research,1994,(18):643~655
[14] D.I.Stevens,J.E.Braun,S.A.Klein,An effectiveness model of liquid desiccant system heat/mass exchangers,Solar Energy,1989,42(6):449~455
[15] M.Sadasivam,A.R.Balakrishnan,Effectiveness-NTU method for design of a packed bed liquid desiccant dehumidifiers,Transactions of the Institution of Chemical Engineers,1992,70(9):572~577
[16]路则锋,陈沛霖,逆流填料式吸收除湿系统传热传质过程的分析解法及应用,太阳能学报,2000,21(4):39~46
[17]陈晓阳,溶液式空调系统的应用研究:[硕士学位论文],北京;清华大学,2005
[18]赵云,太阳能液体除湿空调系统的研究:[博士学位论文],南京;东南大学,2002
[19] Grossman G.,Simultaneous heat and mass transfer in film absorption under laminar flow,International Journal of Heat and Mass Transfer,1983,26(3):357~371
[20] Grossman G.,Simultaneous heat and mass transfer in absorption of gases in turbulent liquid films,International Journal of Heat and Mass Transfer,1984,27(12):2365~2376
[21] Park M S,Howell J R,Vliet GC,Peterson J,Numerical and experimental results for coupled heat and mass-transfer between a desiccant film and air in cross-flow,International Journal of Heat and Mass Transfer,1994,37(S1):395~402
[22] Ali A,Vafai K,Khaled A R A,Comparative study between parallel and counter flow configurations between air and falling film desiccant in the presence of nanoparticle suspensions,International Journal of Energy Research,2003,27(8):725~745
[23]代彦军,张鹤飞,俞金娣,错流降膜液体干燥剂除湿/再生传热传质数学模型及分析,化工学报,2001,52(5):510~515
[24] Dai Y J,Zhang H F,Numerical simulation and theoretical analysis of heat and mass transfer in a cross flow liquid desiccant air dehumidifier packed with honeycomb paper,Energy Conversion & Management,2004,45(9~10):1343~1356
[25]张村,施明恒,对流边界条件下竖板降膜除湿过程中传热传质的数值模拟,制冷与空调,2004,4(4):21~25
[14] D.I.Stevens,J.E.Braun,S.A.Klein,An effectiveness model of liquid desiccant system heat/mass exchangers,Solar Energy,1989,42(6):449~455
[15] M.Sadasivam,A.R.Balakrishnan,Effectiveness-NTU method for design of a packed bed liquid desiccant dehumidifiers,Transactions of the Institution of Chemical Engineers,1992,70(9):572~577
[16]路则锋,陈沛霖,逆流填料式吸收除湿系统传热传质过程的分析解法及应用,太阳能学报,2000,21(4):39~46
[17]陈晓阳,溶液式空调系统的应用研究:[硕士学位论文],北京;清华大学,2005
[18]赵云,太阳能液体除湿空调系统的研究:[博士学位论文],南京;东南大学,2002
[19] Grossman G.,Simultaneous heat and mass transfer in film absorption under laminar flow,International Journal of Heat and Mass Transfer,1983,26(3):357~371
[20] Grossman G.,Simultaneous heat and mass transfer in absorption of gases in turbulent liquid films,International Journal of Heat and Mass Transfer,1984,27(12):2365~2376
[21] Park M S,Howell J R,Vliet GC,Peterson J,Numerical and experimental results for coupled heat and mass-transfer between a desiccant film and air in cross-flow,International Journal of Heat and Mass Transfer,1994,37(S1):395~402
[22] Ali A,Vafai K,Khaled A R A,Comparative study between parallel and counter flow configurations between air and falling film desiccant in the presence of nanoparticle suspensions,International Journal of Energy Research,2003,27(8):725~745
[23]代彦军,张鹤飞,俞金娣,错流降膜液体干燥剂除湿/再生传热传质数学模型及分析,化工学报,2001,52(5):510~515
[24] Dai Y J,Zhang H F,Numerical simulation and theoretical analysis of heat and mass transfer in a cross flow liquid desiccant air dehumidifier packed with honeycomb paper,Energy Conversion & Management,2004,45(9~10):1343~1356
[25]张村,施明恒,对流边界条件下竖板降膜除湿过程中传热传质的数值模拟,制冷与空调,2004,4(4):21~25
[39] W.Y.Saman,S.Alizadeh,Modelling and performance analysis of across-flow type plate heat exchanger for dehumidification/cooling,Solar Energy,2000,(7):63~70
[40] W.Y.Saman,S.Alizadeh,An Experimental study of a cross-flow type Plate heat exchanger for dehumidification/cooling,Solar Energy,2001,73(1):59~71
[41] S.Allizadeh,W.Y.Saman,Modeling and performance of a forced-flow solar collector/regenerator using liquid desiccant,Solar Energy,2002,72(2):143~154
[42] Gandhidasan P,Ullah M R,Kettleborough C F,Analysis of heat and mass transfer between a desiccant-air system in a packed tower,Journal of Solar Energy Engineering Transactions of the ASME,1987,109(2):89~93
[43] G.O.G.Lof,Cooling with solar energy,Congress on solar energy,Tuscon,Arizona,1995. 171~189
[44] S.Alizadeh,W.Y.Saman,An Experimental study of a forced flow solar collector/regenerator using liquid desiccant,Solar Energy,2002,73 (5):. 345~362
[45] V.?berg,D.Y. Goswami,Experimental study of the heat and mass transfer in a packed bed liquid desiccant air dehuminfier , Journal of Solar Energy Engineering,1998,17(5):289~297
[46] Sanjeev Jaina P.L.,Dhara S.C.,Kaushik,Experimental studies on the dehumidifer and regenerator of a liquid desiccant cooling system,Applied Thermal Engineering,2000,(20):253 ~267
[47] Ertas A,Anderson E E,Kiris I,Properties of a new liquid desiccant solution lithium chloride and calcium chloride mixture,Solar Energy,1992,49(3): 205~212
[48] Yang R.,Wang P.L.,Experimental study of a forced convection solar collector/regenerator for open cycle absorption cooling , Solar Energy Engineering,1994,(116):194~199
[49]孙键,施明恒,赵云,吸收除湿空调再生性能的实验研究,工程热物理学报,2003,24(5):867~869
[50]赵云,施明恒,太阳能吸收除湿空调系统中除湿剂的选择,工程热物理学报,2001,22(3):165~168
[51]刘晓华,江亿,常晓敏等,溶液除湿空调系统中叉流再生装置热质交换性能分析,暖通空调,2005,35(12):10~15
[52] Armando C.Oliveira,Clito F Afonso,Saffa B.Riffat et al.,Thermal performance of a novel air conditioning system using a liquid desiccant,Applied Thermal Engineering,2000,(20):1213~1223
[53] F.N. Ani,E.M. Badawi,K.S. Kannan,The effect of absorber packing height on the performance of a hybrid liquid desiccant system,Renewable Energy,2005. 2247~2256
[54] (o|¨)berg V.,Goswami D.Y.,Performance simulation of solar hybrid liquid desiccant cooling for ventilation air preconditioning, Proceedings of the International Solar Energy Engineering Conference In Solar Engineering,1998. 176~182
[55] (o|¨)berg V.,Goswami D. Y.,Experimental study of the heat and mass transfer in a packed bed liquid desiccant air dehumidifier,Solar Energy Eng,Trans. ASME 120,289~297
[56] (o|¨)berg V.,Goswami D.Y.,A review of liquid desiccant cooling,In Advances in Solar Energy,(12):431~470
[57] Chengchao F.,Ketao S.,Analysis and modeling of solar liquid desiccant air conditioning system,Taiyangneng Xuebao/Acta Energiae Sinica,1997,18(2),128~133
[58] Ahmed C S K,Gandhidasan P,Al-Farayedhi A A,Simulation of a hybrid liquid desiccant based air-conditioning system,Applied Thermal Engineering,1997,17(2):125~134
[59]朱瑞棋,张俊华,CaCl2水溶液去湿型空调系统研究,低温工程,1991,(1)
[60]方承超,孙克涛,太阳能吸收除湿空调系统模型的建立与分析,太阳能学报,1997,18(2):128~133
[61]代彦军,张鹤飞,俞金娣,错流降膜液体干燥剂除湿/再生传热传质数学模型及分析,化工学报,2001,52(5):510~515
[62] Dai Y J,Zhang H F,Numerical simulation and theoretical analysis of heat and mass transfer in a cross flow liquid desiccant air dehumidifier packed with honeycomb paper,Energy Conversion & Management,2004,45(9):1343~1356
[63]熊军,刘泽华,寇广孝,燃气驱动液体除湿空调系统及其节能分析,煤气与热力,2004,24(8):448~450
[64]顾卫国,液体除湿空调系统实验研究:[硕士学位论文],上海;上海理工大学,2005
[65] GOG.L(o|¨)f,Cooling with solar energy,Congress on Solar Energy,1955
[66] Patnaik S et al.,Experimental studies with a solar open cycle liquid desiccant system,Proceedings of the ISES Solar World Congress,Hamburg,West Germany,1987
[67] Adnan.A.Kinsara,Parametric study of an energy efficient air conditioning system using liquid desiccant,Applied Thermal Engineering,1997,18(5):327~335
[68] W. Kessling,E. Laevemann,M. Peltzer.,Energy storage in open cycle liquid desiccant cooling system,Int J. Refrig,1998,21(2):150~156
[69]冯毅,谭盈科,李宗楠,太阳能驱动的吸附除湿空调系统的研究,太阳能学报,2000,21(3):265~268
[70]赵荣义,范存养,薛殿华等,空气调节,北京:中国建筑工业出版社,2000. 104~106
[71]张立志,除湿技术,北京:化学工业出版社,2005. 193~194
[72]王明华,LiCl液体吸收式除湿系统的研究:[硕士学位论文],北京;北京化工大学,2005
[73]赵云,施明恒,太阳能液体除湿空调系统中除湿剂的选择,工程热物理学报(增刊),2001,(22):165~168
[74]张伟荣,刘晓华,李震等,溶液除湿空调盐溶液物性研究,全国暖通空调制冷学术年会资料摘要集(1),2004
[75] K J Kim,T A Ameel,B D Wood,Performance evaluations of LiCl and LiBr for aborber design applications in the open-cycle absorption refrigeration system, Journal of Solar Energy Engineering,1997,(119):165~173
[76] Kaita Y. Thermodynamic properties of lithium bromide-water solutions at high temperatures. International Journal of Refrigeration,2001,24(5):374~390
[77] Chua H.T.,Toh H.K.,Malek A.,Ng K.C.,Srinivasan K.,Improved thermodynamic property fields of LiBr-H2O solution,International Journal of Refrigeration,2000,23(6):412~429
[78] Ertas A,Anderson E E,Kiris I,Properties of a new liquid desiccant solution lithium chloride and calcium chloride mixture,Solar Energy,1992,49(3): 205~212
[79] Ahmed S Y,Gandhidasan P,Al-Farayedhi A A.,Thermodynamic analysis of liquid desiccants,Solar Energy,1998,62(1):11~18
[80]孙健,宫小龙,施明恒,除湿溶液蒸气压的研究,制冷学报,2004,(1):27~30
[81] Conde M R.,Properties of aqueous solutions of lithium and calcium chlorides:formulations for use in air conditioning equipment design, International Journal of Thermal Sciences,2004,43(4):367~382
[82] F.w. Yu,K.t.Chan,Improved condenser design and condenser-fan peration for air-cooled chillers,Applied Energy,2006,(83):628~648
[83]吴尉德,基于热回收技术的除湿供冷空调系统:[硕士学位论文],上海;同济大学,2004
[84]王伟,马最良,空调冷凝热回收热水供应系统计算机模拟分析,哈尔滨工业大学学报,2005,37(2):252~254
[85]王越,空调系统冷凝热回收石蜡基相变材料的试验研究,流体机械,2004,32(10):57~59
[86]刘晓华,溶液调湿式空气处理过程中热湿耦合传递特性分析:[博士学位论文],北京;清华大学,2007
[87]彦启森,空气调节用制冷技术,北京:中国建筑工业出版社,2001. 62~63.
[88]晏刚,马贞俊,周晋等,蒸发式冷凝器的设计与应用,制冷与空调,2003,(3):43~45
[89] Rohesnow W.M.,Choi H.Y.,Heat,mass and momentum transfer,Prentice-Hall Inc,1961
[90] R.O. Parker, R.E. Treybal, The heat-mass transfer characteristics of evaporative coolers, Chemical Engineering Progress Symposium Series,1962,57(32):138~149
[91] Ala Hasan,Performance investigation of plain and finned tube evaporatively cooled heat exchangers,Applied Thermal Engineering,2003,(23):325~340
[92]刘乃鸿,工业塔新型规整填料应用手册,天津:天津大学出版社,1993,44 ~56
[93]张文敏,董谊仁等,金属板波纹填料结构参数对液体分布性能的影响,化学工程,1992,20(2):64~71
[94]陈敏恒,丛德滋,方图南等,化工原理(下册),北京:化工工业出版社,2004. 191~195
[95] Abdulghani A,Al-Farayedhi,P.Gandhidasan,etal,Ealuation of heat and mass transfer coefficients in a gauze-type structured packing air dehumifier operating with liquid desiccant,International Journal of Refrigeration,2002,(25):330~339
[96]刘建新,白鹏,王世昌,基于不同模型的规整填料塔设计计算,石油化工设备,2001,30(1):30~33
[97]黄洁,郭维光,张学,金属孔板波纹填料的传质计算,化工设计,1998,(6):16~20
[98]刘光启,马连湘,邢志有等,化工物性算图手册,北京:化学工业出版社,2002,63~64
[99] Ullah M.R.,Kettleborough C.F.,Gandhidasan P.,Effectiveness of moisture removal for an adiabatic counterflow packed tower absorber operating with CaCl2-air contact system,Journal of Solar Energy Engineering,1998,(110):98~101
[100] Martin V.,Goswami D.Y.,Effectiveness of heat and mass transfer processes in a packed bed liquid desiccant dehumidifier/regenerator,HVAC&R Research,2000,6 (1):21~39
[101]田胜元,萧日嵘,实验设计与数据处理,北京:中国建筑工业出版社,2000. 138~141
[102]余锦华,杨维权,多元统计分析与应用,广州:中山大学出版社,2005. 87~125
[103]孙贺江,新型循环直燃机性能研究:[博士学位论文],天津;天津大学,2004
[104]李广,溴化锂制冷机吸收器吸收效果对机组特性影响的研究:[硕士学位论文],北京;北京建筑工程学院,2006
[105] Abdulghani A. Al-Farayedhi,P.Gandhidasan,M.A.Al-Mutairi,Evaluation of heat and mass transfer coefficients in a gauze-type structured packing air dehumidifier operating with liquid desiccant , International Journal of Refrigeration,2002,(25):330~339
[106] Chung TW,Ghosh TK,Hines AL.,Comparison between random and structured packings for dehumidification of air by lithium chloride solutions in a packed column and their heat and mass transfer correlations,Ind Eng Chem Res,1996,35(1):192~198
[107] ARSHAD Y.Khan,Jorge L. Martinez,Modeling and parametric analysis of heat and mass transfer performance of a hybrid liquid desiccant absorber,Energy Convers. Mgmt,1998,39(10):1095~1112
[108] G.A.Longo,A.Gasparella,Experimental and theoretical analysis of heat and mass transfer in apacked column dehumifier/regenerator with liquid desiccant,International Journal of Heat and Mass Transfer,2005,(48):5240~5254
[109] D.Pietruschka,U.Eicker,M.Huber,J.Schumacher,Experimental performance analysis and modeling of liquid desiccant cooling systems for air conditioning in residential buildings,International Journal of Refrigeration,2006,(29):110~124
[110] Khan A Y.,Sensitivity analysis and component modeling of a packed-type liquid desiccant system at partial load operating-conditions,International Journal of Energy Research,1994,18(7):643~655
[111] Factor H M,Grossman G.,A packed bed dehumidifier/regenerator for solar air conditioning with liquid desiccants,Solar Energy,1980,24(6):541~550
[112] Ren Chenqin,Jiang Yi,Zhang Yianpin,Simplified analysis of coupled heat and mass transfer processes in packed bed liquid desiccant-air contact system,Solar Energy,2006,(80):121~131
[113] Gershon Grossman,Solar-Powered systems for cooling,dehumdification and air-conditioning,Solar Energy,2002,72(1):53~62
[114]杨强生,浦保荣,高等传热学(第二版),上海:上海交通大学出版社,2004. 117~130
[115]杨世铭,陶文铨,传热学(第三版),北京:高等教育出版社,1998. 288~295
[116]连之伟,张寅平,陈宝明等,热质交换原理与设备,北京:中国建筑工业出版社,2001. 31~32
[117]周景锋,基于蒸发式冷凝器的热泵式海水淡水系统技术研究:[硕士学位论文],西安;西北工业大学,2005
[118]由世俊,空调用金属填料传热传质性能的实验研究与相关理论研究:[博士学位论文],天津;天津大学,2003
[119]胡键伟,汤怀民,微分方程数值解法,北京:科学出版社,1999. 119~128
[120]颜庆津,数值分析,北京:北京航空航天大学出版社,2000. 323~327
[121]陶文铨,数值传热学(第2版),西安:西安交通大学出版社,2001. 48~69
[122]丁国良,张春路,制冷空调装置智能仿真,北京:科学出版社,2002. 103~128
[123]丁国良,张春路,制冷空调装置仿真与优化,北京:科学出版社,2001. 31~35
[124]刘浩,张春路,丁国良,结合人工神经网络的冷凝器稳态分布参数模型,上海交通大学学报,2000,34(9),1187~1190
[125]赵明峰,小型制冷装置冷凝器的仿真与实验研究:[硕士学位论文],杭州;浙江大学,2004
[126] Bilal A. Qureshi,Syed M.Zubair,A comprehensive design and rating study of evaporative coolers and condensers(Part I):Performance evaluation,International Journal of Refrigeration,2006,(29):645~658
[127] W. Zalewski,P.A. Gryglaszewski,Mathematical model of heat and mass transfer processes in evaporative fluid coolers,Chem Eng Proc,1997,(36):271~280
[128] Yunho Hwang,Reinhard Radermacher,William Kopko,An experimental evaluation of aresidential-sized evaporatively cooled condenser,International Journal of Refrigeration,2001,(24):238~249
[129]沈家龙,蒸发式冷凝器传热传质理论分析及实验研究:[硕士学位论文],广州;华南理工大学,2005
[130]唐伟杰,张旭,大型工业用蒸发式冷却器的换热模型与仿真,制冷空调与电力机械,2005,26(101):8~11
[131]郝亮,阚杰,袁秀玲,蒸发式冷凝器稳态模型数值模拟,制冷与空调,2005,5(4):31~34