直接接触式储能器传热性能的研究与应用
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摘要
从换热系数方面对直接接触式储能器的传热性能进行了介绍.讨论了传热流体进口温度、传热流体进口流量、蓄能介质进口温度、蓄能介质进口流速、喷口尺寸等因素对直接接触式储能器内换热系数的影响,介绍了直接接触式储能器在各领域的应用.提出了直接接触式储能器实际应用中存在的问题,探讨了其今后的研究重点.
The heat transfer coefficient was introduced. This paper discussed the effect factors of the heat transfer coefficient in direct-contact accumulators,such as the flow rate of heat transfer fluid,inlet temperature of heat transfer fluid,liquid PCM flow rates,liquid PCM temperature and nozzle sizing and other factors. The direct contact accumulators in various fields of applications were introduced for storage process. Point out the problems of practical applications and predict the emphasis of the research.
The heat transfer coefficient was introduced. This paper discussed the effect factors of the heat transfer coefficient in direct-contact accumulators,such as the flow rate of heat transfer fluid,inlet temperature of heat transfer fluid,liquid PCM flow rates,liquid PCM temperature and nozzle sizing and other factors. The direct contact accumulators in various fields of applications were introduced for storage process. Point out the problems of practical applications and predict the emphasis of the research.
引文
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[2]MAHOOD H B,THORPE R B,CAMPBELL A N,et al.Experimental measurements and theoretical prediction for the transient characteristic of a two-phase two-component direct contact condenser[J].Appl.Therm.Eng,2015,87:161-174.
[3]HAILING F,WANG Y,HUANG Q,et al.Direct contact evaporation heat transfer coefficient and drobble size distribution in a2D column[J].Applied Thermal Engineering,2016,96:568-575.
[4]ZHU K,XIA J,XIE X,et al.Total heat recovery of gas boiler by absorption heat pump and direct-contact heat exchanger[J].Appl.Therm.Eng,2014,71(1):213-218.
[5]张鹏飞,柳建华.直接接触式蓄冷系统热力性能分析[J].制冷与空调,2005(3):35-38.
[6]李立,孟迪,黄丽丽.直接接触式蓄冷器换热性能的实验研究[J].建筑热能通风空调,2016,35(1):15-18.
[7]张继皇,孙利,杨强,等.相变储能技术在谷电蓄热供暖中的应用研究[J].电力需求侧管理,2016,18(2):28-29.
[8]章学来,李瑞阳,卢家才,等.直接接触式蓄冷的试验研究[J].机电设备,2000(6):26-29.
[9]李晓燕,杜世强.直接接触式空调蓄冷技术的研究进展[J].建筑热能通风空调,2014,33(5):41-46.
[10]杨波,黄峻伟,王辉涛,等.直接接触式换热器传热性能优化[J].重庆大学学报,2016,39(4):24-31.
[11]代乾,方艳,樊建斌.直接接触式二元冰蓄冷试验的影响因素和传热特性研究[J].流体机械,2006,34(10):75-78.
[12]章学来,李瑞阳.直接接触式换热技术及其在蓄冷中的应用[J].上海海运学院学报,2000,21(2):32-38.
[13]MARTIN V,HE B.Direct contact PCM–water cold storage[J].Applied Energy,2010,87(8):2652-2659.
[14]江敏,张学军,王炜.直接接触式冰浆生成器单气泡传热数值模拟[J].低温工程,2014,(2):19-23.
[15]HAWLADER M N A,WAHED M A.Analyses of ice slurry formation using direct contact heat transfer[J].Applied Energy,2009,86(7-8):1170-1178.
[16]MATSUMOTO K,OKADA M,KAWAGOE T,et al.Ice storage system with water oil mixture formation of suspension with high IPF[J].Int J Refrig,2003,23(5):336-344.
[17]THONGWIK S,VORAYOS N,KIATSIRIROAT T.Thermal analysis of slurry ice production system using direct contact heat transfer of carbon dioxide and water mixture[J].International Communications in Heat and Mass Transfer,2008,35(6):756-761.
[18]郑克晴,张学军,田新建,等.直接接触式冰浆生成器的单气泡传热特性[J].化工学报,2010,61(S2):58-61.
[19]李晓燕.常规空调工况用相变材料的研制与应用基础研究[D].哈尔滨:哈尔滨工业大学,2008.
[20]INABA H,SATO K.Latent cold heat energy storage characteristics by means of direct-contact-freezing between oil droplets and cold water solution[J].Int.J.Heat Mass Transfer,1997,40(13):3189-3200.
[21]李立.空调用相变材料潜热机理及直接接触式蓄冷器换热性能研究[D].哈尔滨:哈尔滨商业大学,2014.
[22]LI X Y,ZHAO Q Q,QU D Q.Investigation on the dynamic characteristics of a direct contact thermal energy storage charging process for use in conventional air-conditioning systems[J].Applied Thermal Engineering,2015,91:172-180.
[23]NOMURA T,TSUBOTA M,OYA T.Heat storage in directcontact heat exchanger with phase change material[J].Applied Thermal Engineering,2013,50(1):26-34.
[24]KAIZAWA A,KAMANO H,KAWAI A,et al.Thermal and flow behaviors in heat transportation container using phase change material[J].Energy Conversion and Management,2008,49(4):698-706.
[25]WANG W,GUO S,LI H,et al.Experimental study on the direct/indirect contact energy storage container in mobilized thermal energy system(M-TES)[J].Applied Energy,2014,119:181-189.
[26]NOMURA T,TSUBOTA M,OYA T,et al.Heat release performance of direct-contact heat exchanger with erythritol as phase change material[J].Applied Thermal Engineering,2013,61(2-3):28-35.
[27]WANG W,LI H,GUO S,et al.Numerical simulation study on discharging process of the direct-contact phase change energy storage system[J].Applied Energy,2015(150):61-68.
[28]GAO L,ZHAO J,AN Q,et al.Experiments on thermal performance of erythritol/expanded graphite in a direct contact thermal energy storage container[J].Applied Thermal Engineering,2017,113:858-866.
[29]BAQIR A S,MAHOOD H B,HAMEED M S,et al.Heat transfer measurement in a three-phase spray column direct contact heat exchanger for utilisation in energy recovery from lowgrade sources[J].Energy Conversion and Management,2016,126:342-351.
[30]BAQIR A S,MAHOOD H B,CAMPBELL A N,et al.Measuring the average volumetric heat transfer coefficient of a liquid–liquid–vapour direct contact heat exchanger[J].Applied Thermal Engineering,2016,103:47-55.
[31]WANG W,HE S,GUO S,et al.A combined experimental and simulation study on charging process of Erythritol–HTO direct-blending based energy storage system[J].Energy Conversion and Management,2014,83:306-313.
[32]GUO S,ZHAO J,WANG W,et al.Experimental study on solving the blocking for the direct contact mobilized thermal energy storage container[J].Applied Thermal Engineering,2015,78:556-564.
[33]GUO S,LI H,ZHAO J,et al.Numerical simulation study on optimizing charging process of the direct contact mobilized thermal energy storage[J].Applied Energy,2013,112:1416-1423.
[34]王宝龙,石文星,李先庭.空调蓄冷技术在我国的研究进展[J].暖通空调,2010,40(6):6-11.
[35]SUBBAIYER S.Computer simulation of a vapour-compression ice generator with a direct contact evaporator[J].ASHRAE Trans,1991(1):118-126.
[36]NOMUR T,TSUBOT M,OYA T,et al.Heat storage in direct-contact heat exchanger with phase change material[J].Applied Thermal Engineering,2013,50(1):26-34.
[37]余艳艳.风电产业激励政策比较以及中国应用探讨[J].经济问题探索,2015,(2):120-125.
[38]GUO S,ZHAO J,YAN J.Techno-economic assessment of mobilized thermal energy storage for distributed users:A case study in China[J].2016,88:656-661.
[39]MIRóL,GASIA J,CABEZA L F.Thermal energy storage(TES)for industrial waste heat(IWH)recovery:A review[J].Applied Energy,2016,179:284-301.
[40]GUO S,ZHAO J,WANG W,et al.Numerical study of the improvement of an indirect contact mobilized thermal energy storage container[J].Applied Energy,2016,161:476-486.
[2]MAHOOD H B,THORPE R B,CAMPBELL A N,et al.Experimental measurements and theoretical prediction for the transient characteristic of a two-phase two-component direct contact condenser[J].Appl.Therm.Eng,2015,87:161-174.
[3]HAILING F,WANG Y,HUANG Q,et al.Direct contact evaporation heat transfer coefficient and drobble size distribution in a2D column[J].Applied Thermal Engineering,2016,96:568-575.
[4]ZHU K,XIA J,XIE X,et al.Total heat recovery of gas boiler by absorption heat pump and direct-contact heat exchanger[J].Appl.Therm.Eng,2014,71(1):213-218.
[5]张鹏飞,柳建华.直接接触式蓄冷系统热力性能分析[J].制冷与空调,2005(3):35-38.
[6]李立,孟迪,黄丽丽.直接接触式蓄冷器换热性能的实验研究[J].建筑热能通风空调,2016,35(1):15-18.
[7]张继皇,孙利,杨强,等.相变储能技术在谷电蓄热供暖中的应用研究[J].电力需求侧管理,2016,18(2):28-29.
[8]章学来,李瑞阳,卢家才,等.直接接触式蓄冷的试验研究[J].机电设备,2000(6):26-29.
[9]李晓燕,杜世强.直接接触式空调蓄冷技术的研究进展[J].建筑热能通风空调,2014,33(5):41-46.
[10]杨波,黄峻伟,王辉涛,等.直接接触式换热器传热性能优化[J].重庆大学学报,2016,39(4):24-31.
[11]代乾,方艳,樊建斌.直接接触式二元冰蓄冷试验的影响因素和传热特性研究[J].流体机械,2006,34(10):75-78.
[12]章学来,李瑞阳.直接接触式换热技术及其在蓄冷中的应用[J].上海海运学院学报,2000,21(2):32-38.
[13]MARTIN V,HE B.Direct contact PCM–water cold storage[J].Applied Energy,2010,87(8):2652-2659.
[14]江敏,张学军,王炜.直接接触式冰浆生成器单气泡传热数值模拟[J].低温工程,2014,(2):19-23.
[15]HAWLADER M N A,WAHED M A.Analyses of ice slurry formation using direct contact heat transfer[J].Applied Energy,2009,86(7-8):1170-1178.
[16]MATSUMOTO K,OKADA M,KAWAGOE T,et al.Ice storage system with water oil mixture formation of suspension with high IPF[J].Int J Refrig,2003,23(5):336-344.
[17]THONGWIK S,VORAYOS N,KIATSIRIROAT T.Thermal analysis of slurry ice production system using direct contact heat transfer of carbon dioxide and water mixture[J].International Communications in Heat and Mass Transfer,2008,35(6):756-761.
[18]郑克晴,张学军,田新建,等.直接接触式冰浆生成器的单气泡传热特性[J].化工学报,2010,61(S2):58-61.
[19]李晓燕.常规空调工况用相变材料的研制与应用基础研究[D].哈尔滨:哈尔滨工业大学,2008.
[20]INABA H,SATO K.Latent cold heat energy storage characteristics by means of direct-contact-freezing between oil droplets and cold water solution[J].Int.J.Heat Mass Transfer,1997,40(13):3189-3200.
[21]李立.空调用相变材料潜热机理及直接接触式蓄冷器换热性能研究[D].哈尔滨:哈尔滨商业大学,2014.
[22]LI X Y,ZHAO Q Q,QU D Q.Investigation on the dynamic characteristics of a direct contact thermal energy storage charging process for use in conventional air-conditioning systems[J].Applied Thermal Engineering,2015,91:172-180.
[23]NOMURA T,TSUBOTA M,OYA T.Heat storage in directcontact heat exchanger with phase change material[J].Applied Thermal Engineering,2013,50(1):26-34.
[24]KAIZAWA A,KAMANO H,KAWAI A,et al.Thermal and flow behaviors in heat transportation container using phase change material[J].Energy Conversion and Management,2008,49(4):698-706.
[25]WANG W,GUO S,LI H,et al.Experimental study on the direct/indirect contact energy storage container in mobilized thermal energy system(M-TES)[J].Applied Energy,2014,119:181-189.
[26]NOMURA T,TSUBOTA M,OYA T,et al.Heat release performance of direct-contact heat exchanger with erythritol as phase change material[J].Applied Thermal Engineering,2013,61(2-3):28-35.
[27]WANG W,LI H,GUO S,et al.Numerical simulation study on discharging process of the direct-contact phase change energy storage system[J].Applied Energy,2015(150):61-68.
[28]GAO L,ZHAO J,AN Q,et al.Experiments on thermal performance of erythritol/expanded graphite in a direct contact thermal energy storage container[J].Applied Thermal Engineering,2017,113:858-866.
[29]BAQIR A S,MAHOOD H B,HAMEED M S,et al.Heat transfer measurement in a three-phase spray column direct contact heat exchanger for utilisation in energy recovery from lowgrade sources[J].Energy Conversion and Management,2016,126:342-351.
[30]BAQIR A S,MAHOOD H B,CAMPBELL A N,et al.Measuring the average volumetric heat transfer coefficient of a liquid–liquid–vapour direct contact heat exchanger[J].Applied Thermal Engineering,2016,103:47-55.
[31]WANG W,HE S,GUO S,et al.A combined experimental and simulation study on charging process of Erythritol–HTO direct-blending based energy storage system[J].Energy Conversion and Management,2014,83:306-313.
[32]GUO S,ZHAO J,WANG W,et al.Experimental study on solving the blocking for the direct contact mobilized thermal energy storage container[J].Applied Thermal Engineering,2015,78:556-564.
[33]GUO S,LI H,ZHAO J,et al.Numerical simulation study on optimizing charging process of the direct contact mobilized thermal energy storage[J].Applied Energy,2013,112:1416-1423.
[34]王宝龙,石文星,李先庭.空调蓄冷技术在我国的研究进展[J].暖通空调,2010,40(6):6-11.
[35]SUBBAIYER S.Computer simulation of a vapour-compression ice generator with a direct contact evaporator[J].ASHRAE Trans,1991(1):118-126.
[36]NOMUR T,TSUBOT M,OYA T,et al.Heat storage in direct-contact heat exchanger with phase change material[J].Applied Thermal Engineering,2013,50(1):26-34.
[37]余艳艳.风电产业激励政策比较以及中国应用探讨[J].经济问题探索,2015,(2):120-125.
[38]GUO S,ZHAO J,YAN J.Techno-economic assessment of mobilized thermal energy storage for distributed users:A case study in China[J].2016,88:656-661.
[39]MIRóL,GASIA J,CABEZA L F.Thermal energy storage(TES)for industrial waste heat(IWH)recovery:A review[J].Applied Energy,2016,179:284-301.
[40]GUO S,ZHAO J,WANG W,et al.Numerical study of the improvement of an indirect contact mobilized thermal energy storage container[J].Applied Energy,2016,161:476-486.