Research Status and Development on Latent Energy Storage Technology of Building

YUAN Yanping; XIANG Bo; CAO Xiaoling; ZHANG Nan; SUN Liangliang

doi:10.3969/j.issn.0258-2724.2016.03.017

Volume 29 Issue 3

Mar. 2019

Turn off MathJax

Article Contents

Journal of Southwest Jiaotong University > 2016 > 29(2): 585-598.

YUAN Yanping, XIANG Bo, CAO Xiaoling, ZHANG Nan, SUN Liangliang. Research Status and Development on Latent Energy Storage Technology of Building[J]. Journal of Southwest Jiaotong University, 2016, 29(2): 585-598. doi: 10.3969/j.issn.0258-2724.2016.03.017

Citation:

YUAN Yanping, XIANG Bo, CAO Xiaoling, ZHANG Nan, SUN Liangliang. Research Status and Development on Latent Energy Storage Technology of Building[J]. Journal of Southwest Jiaotong University, 2016, 29(2): 585-598. doi: 10.3969/j.issn.0258-2724.2016.03.017

Citation:

PDF( 0 KB)

Research Status and Development on Latent Energy Storage Technology of Building

doi: 10.3969/j.issn.0258-2724.2016.03.017

Received Date: 06 Apr 2016
Publish Date: 25 Apr 2016

Abstract

Abstract

As an important building energy saving technology, latent energy storage technology can solve the mismatch between energy supply and demand in time,space and strength. The preparation and thermal conductivity enhancement of building energy storage phase change materials, the heat transfer characteristics and enhancement of a phase change unit, the development and application of building phase change energy storage system are reviewed. The deficiency of materials research and development, system performance evaluation and system application technology development is summarized, and this paper points out the focus of further research, namely, developing the phase change materials with stable performance and strong heat storage or release capability, predicting dynamic performance of multi-physical processes and multi-phase energy storage system effectively and achieving an objective that the energy storage system could run independently and effectively without human intervention.
- building energy conservation,
- latent energy storage,
- phase change material,
- thermal property

FullText(HTML)

References(99)

References

王立久,孟多. 有机相变材料的建筑节能应用和研究[J]. 材料导报,2009,23(1):97-100. WANG Lijiu, MENG Duo. Application and research of building energy conservation of organic phase change material[J]. Materials Review, 2009, 23(1):97-100.

SHARMA A, TYAGI V V, CHEN C R, et al. Review on thermal energy storage with phase change materials and applications[J]. Renewable Sustainable Energy Reviews, 2009, 13(2):318-345.

YUAN Y, ZHANG N, TAO W, et al. Fatty acids as phase change materials:areview[J]. Renewable Sustainable Energy Reviews, 2014, 29(7):482-498.

梁辰. 相变储能材料的选择配制及其在墙体中的应用研究[D]. 北京:北京建筑工程学院,2009.

SU J F, WANG X Y, WANG S B, et al. Fabrication and properties of microencapsulated-paraffin/gypsum-matrix building materials for thermal energy storage[J]. Energy Conversion Management, 2012, 55(3):101-107.

胡仁林,刘振华,赵峰,等. 固-固相变蓄热材料在太阳能高温空气集热系统中的应用研究[J]. 热科学与技术,2012,11(3):266-271. HU Renlin, LIU Zhenhua, ZHAO Feng, et al. Research of solid-solid phase change heat storage material applied in solar collector to produce high temperature air[J]. Journal of Thermal Science and Technology, 2012, 11(3):266-271.

孔祥蕊. 丙三醇相变材料制备与性能研究[D]. 天津:天津大学,2009.

刘程,袁艳平,张楠,等. 脂肪酸三元低共熔混合物相变温度和潜热的理论预测[J]. 材料导报,2014,28(2):165-168. LIU Cheng, YUAN Yanping, ZHANU Nan, et al. Theoretic prediction of phase change temperature and latent heat of fatty acids ternary eutectic mixture[J]. Materials Review, 2014, 28(2):165-168.

SARI A. Eutectic mixtures of some fatty acids for low temperature solar heating applications:thermal properties and thermal reliability[J]. Applied Thermal Engineering, 2005, 25(14/15):2100-2107.

张兴祥,王学晨,胡灵,等. PP/PEG蓄热调温复合纤维的纺丝与性能[J]. 天津工业大学学报,1999,18(1):1-4. ZHANG Xingxiang, WANG Xuechen, HU Ling, et al. Spinning and properties of PP/PEG composite fibers for heat storaging and thermoregulating[J]. Journal of Tianjin Polytechnic University, 1999, 18(1):1-4.

AHMAD M, BONTEMPS A, SALLE H, et al. Thermal testing and numerical simulation of a prototype cell using light wallboards coupling vacuum isolation panels and phase change material[J]. Energy Buildings, 2006, 38(6):673-681.

SANDNES B, REKSTAD J. Supercooling salt hydrates:stored enthalpy as a function of temperature[J]. Solar Energy, 2006, 80(5):616-625.

马江生. 相变储热材料:Na2SO410H2O的研制[J]. 海湖盐与化工,1994,23(1):37-39. MA Jiangsheng. Preparation of Na2SO410H2O[J]. Sea-Lake Salt and Chemical Industry, 1994, 23(1):37-39.

谢刚. 熔融盐理论与应用[M]. 北京:冶金工业出版社,1998:1-8.

孙李平,吴玉庭,马重芳. 太阳能高温蓄热熔融盐优选的实验研究[J]. 太阳能学报,2008,29(9):1092-1095. SUN Liping, WU Yuting, MA Chongfang. Experimental study on optimization of molten salt for solar high temperature heat storage[J]. Acta Energiae Solaris Sinica, 2008, 29(9):1092-1095.

张东,康韡,李凯莉. 复合相变材料研究进展[J]. 功能材料,2007,38(12):1936-1940. ZHANG Dong, KANG Wei, LI Kaili. Progress in studies of phase change composites[J]. Journal of Functional Materials, 2007, 38(12):1936-1940.

吕石磊,冯国会,朱能. 脂酸类相变材料在节能建筑中应用的可行性研究[J]. 沈阳建筑大学学报:自然科学版,2006,22(1):129-132. L Shilei,FENG Guohui, ZHU Neng. Research on feasibility of the application of fatty acids in energy-saving buildings[J]. Journal of Shenyang Jianzhu University:Natural Science, 2006, 22(11):129-132.

李忠,井波,于少明. CA-SA/蒙脱土复合相变贮能材料的制备、结构与性能[J]. 化工新型材料,2007,35(3):42-44. LI Zhong, JING Bo, YU Shaoming. Preparation, structure and properties of CA-SA/montmorillonite composite phase change energy storage materials[J]. New Chemical Materials, 2007, 35(3):42-44.

ZHANG N, YUAN Y, YUAN Y, et al. Lauric-palmitic-stearic acid/expanded perlite composite as form-stable phase change material:preparation and thermal properties[J]. Energy Buildings, 2014(82):505-511.

ZHANG N, YUAN Y, LI T, et al. Study on thermal property of lauric-palmitic-stearic acid/vermiculite composite as form-stable phase change material for energy storage[J]. Advances in Mechanical Engineering, 2015, 7(9):1-8.

王立久,孟多. 定形相变材料的制备与性能研究[J]. 新型建筑材料,2009,36(11):1-4. WANG Lijiu, MENG Duo. Preparation and properties of shape-stabilized phase change materials[J]. New Building Materials, 2009, 36(11):1-4.

LIN K, ZHANG Y, XU X, et al. Experimental study of under-floor electric heating system with shape-stabilized PCM plates[J]. Energy Buildings, 2005, 37(3):215-220.

袁艳平,白力,牛犇. 墙体相变材料的研究现状与发展趋势[J]. 材料导报,2010,24(1):129-132. YUAN Yanping, BAI Li, NIU Ben. Review of phase change materials of wallboard[J]. Materials Review, 2010, 24(1):129-132.

梁辰,闫全英,张林,等. 墙体储能用定形相变石蜡储热性能的实验研究[J]. 太阳能学报,2009,30(12):1627-1630. LIANG Chen, YAN Quanying, ZHANG Lin, et al. Thermal performance analysis of shape-stabilized phase change paraffin used in the wall[J]. Acta Energiae Solaris Sinica, 2009, 30(12):1627-1630.

刘永明,李东旭. 石膏基石蜡相变储能墙板的研究进展[J]. 材料导报,2011,25(23):59-64. LIU Yongming, LI Dongxu. Progress in researches of gypsum paraffin phase change energy storage wallboard[J]. Materials Review, 2011, 25(23):59-64.

闫全英,岳立航,霍冉. 低温热水辐射供暖相变墙板传热特性影响因素的研究[J]. 建筑科学,2013,29(6):89-93. YAN Quanying, YUE Lihang, HUO Ran. Research on factors influencing heat transfer characteristics of phase change wallboard with low temperature hot water radiant heating[J]. Building Science, 2013, 29(6):89-93.

王青青. 相变墙及相变窗的传热特性研究[D]. 哈尔滨:哈尔滨工业大学,2012.

钟克承,李舒宏,周盈盈,等. 相变玻璃窗与中空玻璃窗的动态传热特性[J]. 化工学报,2014,65(S2):114-123. ZHONG Kecheng, LI Shuhong, ZHOU Yingying, et al. Dynamic heat transfer characteristics of PCM-filled glass window and hollow glass window[J]. CIESC Journal, 2014, 65(S2):114-123.

罗庆,刘庆开,夏煦,等. 双层相变玻璃窗动态热调节过程研究[J]. 材料导报,2010,24(16):69-72. LUO Qing, LIU Qingkai, XIA Xu, et al. Dynamic thermal performance of phase change materials filled in glass window[J]. Materials Review, 2010, 24(16):69-72.

ISMAIL K A R, HENRQUEZ J R. Parametric study on composite and PCM glass systems[J]. Energy Conversion and Management, 2002, 43(7):973-993.

GOIA F, PERINO M, SERRA V. Improving thermal comfort conditions by means of PCM glazing systems[J]. Energy and Buildings, 2013(60):442-452.

陈思婷. 基于相变材料的电加热地板辐射采暖系统实验及模拟研究[D]. 广州:华南理工大学,2014.

BARZIN R, CHEN J J, YOUNG B R, et al. Application of PCM underfloor heating in combination with PCM wallboards for space heating using price based control system[J]. Applied Energy, 2015(148):39-48.

叶宏,王军,庄双勇,等. 定形相变贮能式地板辐射采暖系统的实验研究[J]. 太阳能学报,2004,5(25):651-656. YE Hong, WANG Jun, ZHUANG Shuangyong,et al. Experimental study on the radiant floor heating system utilizing form stable PCM as the thermal mass[J]. Acta Energiae Solaris Sinica, 2004, 5(25):651-656.

闫全英,王小,阮振邦. 预制轻薄相变复合供暖地板的构造与研究[J]. 建筑节能,2014(11):4-7. YAN Quanying, WANG Xiao, RUAN Zhenbang. Numerical simulation analysis of a prefabricated thin composite phase change heating floor[J]. Building Energy Efficiency, 2014(11):4-7.

肖伟,王馨,张群力,等. 结合太阳能空气集热器的定形相变蓄能地板采暖系统实验研究[J]. 太阳能学报,2008(11):1319-1323. XIAO Wei, WANG Xin, ZHANG Qunli, et al. Eeperimental study on underfloor air supply system with air solar collector and shape-stabilized PCM[J]. Acta Energiae Solaris Sinica, 2008(11):1319-1323.

冯国会,黄凯良,陈其针,等. 相变储能地板热水采暖系统实验研究[J]. 重庆大学学报,2011(S1):52-57. FENG Guohui, HUANG Kailiang, CHEN Qizhen, et al. Experimental research on phase change energy storage floor heating system[J]. Journal of Chongqing University, 2011(S1):52-57.

MAZO J, DELGADO M, MARIN J M, et al. Modeling a radiant floor system with Phase Change Material (PCM) integrated into a building simulation tool:Analysis of a case study of a floor heating system coupled to a heat pump[J]. Acm Sigsim Simulation Digest, 2012, 47(3):458-466.

康艳兵,江亿,张寅平. 夜间通风相变蓄冷吊顶系统研究[C]//全国暖通空调制冷2000年学术年会论文集. 北京:中国建筑学会暖通空调专业委员会、中国制冷学会第五专业委员会,2000:383-386.

康艳兵,江亿,张寅平. 夜间通风相变贮能吊顶系统实验分析[J]. 建筑学报,2002(7):32-34. KANG Yanbing, JIANG Yi, ZHANG Yinping. Experimental analysis on the night ventilation with PCM packed bed storage[J]. Architectaral Journal, 2002(7):32-34.

张君瑛,吴喜平,于树轩,等. 采用封装式相变材料的冷吊顶热工特性模拟[J]. 上海海事大学学报,2010,31(3):40-46. ZHAGN Junying, WU Xiping, YU Shuxuan,et al.Simulation on the thermal performance of chilled ceiling panel using encapsulated phase change material[J]. Journal of Shanghai Maritime University, 2010, 31(3):40-46.

于连广,吴喜平,张君瑛. 相变吊顶与隧道空气耦合传热模拟分析[J]. 同济大学学报:自然科学版,2011,39(2):236-241. YU Lianguang, WU Xiping, ZHANG Junying. Analysis on coupled heat transfer of phase change material ceiling and air in tunnel[J]. Journal of Tongji University:Natural Science, 2011, 39(2):236-241.

康艳兵,张寅平,江亿,等. 板式相变贮能换热器传热模型和热性能分析[J]. 太阳能学报,2000,21(2):121-127. KANG Yanbing, ZHANG Yinping, JIANG Yi, et al. A simple model for heat transfer analysis of flat-plate heat exchanger with PCM and thermal performance simulation[J]. Acta Energiae Solaris Sinica, 2000, 21(2):121-127.

刘靖,王馨,张寅平,等. 高温相变蓄热电采暖器蓄放热特性的实验研究[J]. 工程热物理学报,2004,36(S1):62-65. LIU Jing, WANG Xin, ZHANG Yinping, et al. Experimantal research on high-temperature phase change thermal energy storage heater[J]. Journal of Engineering Thermophysics, 2004, 36(S1):62-65.

叶宏,赵晓,程丹鹏,等. 管壳式相变换热器贮热换热效果的数值研究[J]. 太阳能学报,2008,29(12):1499-1503. YE Hong, ZHAO Xiao, CHENG Danpeng, et al. Numerical investigation on heat storage and heat exchange of the shell-and-tube phase change heat exchanger[J]. Acta Energiae Solaris Sinica, 2008, 29(12):1499-1503.

江邑,张寅平,等. 板式相变储换热器的储换热性能实验研究[J]. 太阳能学报,2000,21(4):358-363. JIANG Yi, ZHANG Yinping, et al. experimental study of thermal characteristics of latent thermal storage systems with rectangular containers containing PCM[J]. Acta Energiae Solaris Sinica, 2000, 21(4):358-363.

林坤平,张寅平,狄洪发,等. 地板下送风式相变蓄热电采暖系统[J]. 太阳能学报,2005,26(6):820-824. LIN Kunping, ZHANG Yinping, DI Hongfa, et al. Experimental study of underfloor electric heating system with latent thermal storage a air supply[J]. Acta Energiae Solaris Sinica, 2005, 26(6):820-824.

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):6-12. WANG Baolong, SHI Wenxing, LI Xianting.Progress in research of cool storage technologies for air conditioning in China[J]. Heating Ventilating Air Conditioning, 2010, 40(6):6-12.

PASUPATHY A, VELRAJ R, SEENIRAJ R V. Phase change material-based building architecture for thermal management in residential and commercial establishments[J]. Renewable and Sustainable Energy Reviews, 2008, 12(1):39-64.

王晓霖,翟晓强,王聪,等. 空调相变蓄冷技术的研究进展[J]. 建筑科学,2013,29(6):98-106. WANG Xiaolin, ZHAI Xiaoqiang, WANG Cong, et al. Review on phase change cool storage in air-conditioning system[J]. Building Science, 2013, 29(6):98-106.

CHIDAMBARAM L A, RAMANA A S, KAMARAJ G, et al. Review of solar cooling methods and thermal storage options[J]. Renewable and Sustainable Energy Reviews, 2011, 15(6):3220-3228.

巫术胜,肖睿,黄冲,等. 四丁基溴化铵水合物在空调蓄冷中的应用研究[J]. 制冷学报,2006,27(6):48-51. WU Shusheng, XIAO Rui, HUANG Chong, et al. Research on clathrate hydrate of tetra-n-butylammonium bromide as cold-storage material in air-conditioning[J]. Journal of Refrigeration, 2006, 27(6):48-51.

彭华东,陈振乾,施明恒. 太阳平板集热/储能相变传热的数值模拟[J]. 太阳能学报,2009,30(7):911-915. PENG Donghua, CHEN Zhenqian, SHI Mingheng. Numerical simulation on phase change heat transfer of solar flat-plate collector with energy storage[J]. Acta Energiae Solaris Sinica, 2009, 30(7):911-915.

QARNIA H E. Numerical analysis of a coupled solar collector latent heat storageunit using various phase change materials for heating the water[J]. Energy Conversion and Management, 2009, 50(2):247-254.

毛凌波,张仁元,柯秀芳,等. 纳米流体太阳集热器的光热性能研究[J]. 太阳能学报,2009,30(12):1647-1652. MAO Lingbo, ZHANG Renyuan, KE Xiufang, et al. Photo-thermal properties of nanofluid-based solar collector[J]. Acta Energiae Solaris Sinica, 2009, 30(12):1647-1652.

SERALE G, BARONETTO S, GOIA F, et al. Characterization and energy performance of a slurry pcm-based solar thermal collector:a numerical analysis[J]. Energy Procedia, 2014, 48:223-232.

彭飞,刘志祥,陈维荣. 新型光伏锂电无均衡管理储能发电系统[J]. 西南交通大学学报,2014(5):920-927. PENG Fei, LIU Zhixiang, CHEN Weirong. Novel PV/Li-Ion energy storage system based on Non-balancing cell management[J]. Journal of Southwest Jiaotong University, 2014(5):920-927.

HUANG M J, EAMES P C, NORTON B. An experimental study into the application of phase change materials to limit the temperature rise in build integrated photovoltaic systems[C]//Proceedings of Renewable Energy in Maritime Island Climates. UK:, 2001:143-150.

HUANG M J, EAMES P C, NORTON B. Thermal regulation of building-integrated photovoltaics using phase change materials[J]. International Journal of Heat and Mass Transfer, 2004, 47(12/13):2715-2733.

HUANG M J. The effect of using two PCMs on the thermal regulation performance of BIPV systems[J]. Solar Energy Materials and Solar Cells, 2011, 95(3):957-963.

MALVI C S, DIXON-HARDY D W, CROOK R. Energy balance model of combined photovoltaic solar-thermal system incorporating phase change material[J]. Solar Energy, 2011, 85(7):1440-1446.

陈波,黄亚继,张宏,等. 相变蓄热式PV/T集热器的试验研究[J]. 可再生能源,2015,33(1):16-20. CHEN Bo, HUANG Yaji, ZHANG Hong, et al. Experimental research on laten heat storage PV/T collector[J]. Renewable Energy Resources, 2015, 33(1):16-20.

LIN W, MA Z, SOHEL M I, et al. Development and evaluation of a ceiling ventilation system enhanced by solar photovoltaic thermal collectors and phase change materials[J]. Energy Conversion and Management, 2014(88):218-230.

王越. 空调系统冷凝热回收石蜡基相变材料的实验研究[J]. 流体机械,2004,32(10):57-59. WANG Yue. Technical grade paraffin wax as phase change materials for thermal energy reclamation of air conditioning system[J]. Fluid Machinery, 2004, 32(10):57-59.

刘红娟,顾兆林,令彤彤. 冷凝排热-相变蓄热热回收空调系统的实验研究[J]. 制冷学报,2005,26(1):1-4. LIU Hongjuan, GU Zhaolin, LING Tongtong. Experimental study on air conditioning system with heat recovery of compressor discharge gas[J]. Refrigeration Journal, 2005, 26(1):1-4.

章学来,于树轩,林原培,等. 相变蓄热冷凝热回收实验研究[J]. 化工学报,2010(S2):43-48. ZHANG Xuelai, YU Shuxuan, LIN Yuanpei, et al. Experimental research on heat recovery of condensation with phase change thermal storage[J].CIESC Journal, 2010(S2):43-48.

ZHANG X, YU S, YU M, et al. Experimental research on condensing heat recovery using phase change material[J]. Applied Thermal Engineering, 2011, 31(17):3736-3740.

李宛泽,刘曙光. 一种空气源热泵相变贮能式冷凝热回收系统探讨[J]. 山西建筑,2015,41(6):116-117. LI Wanze, LIU Shuguang. Design and analysis on phase change thermal storage applied in heat recovery of air source heat pump condensing system[J]. Shanxi Architecture, 2015, 41(6):116-117.

袁艳平,夏铭珠,袁亚光,等. 一种新型冷库冷凝热相变回收系统[P]. 实用新型,CN204421420U, 2015-06-24.

赵兰,章学来,等. 热回收技术用于风冷热泵系统的研究与应用[J]. 制冷技术,2007(2):13-15. ZHAO Lan, ZHANG Xuelai, et al. Research and application of heat recovery in air cooled heat pump system[J]. Refrigeration Technology, 2007(2):13-15.

吕磊磊,章学来,杨培莹,等. 用于回收空调冷凝热的复合相变蓄热器[J]. 建筑热能通风空调,2008,27(1):94-96. L Leilei, ZHANG Xuelai, YANG Peiying, et al. a composite phase change heat storage used in recycling condense heat[J]. Building Energy and Environment, 2008, 27(1):94-96.

章学来,林原培,于树轩,等. 复合蓄热热泵热水空调技术[J]. 化工学报,2010(S2):125-129. ZHANG Xuelai, LIN Yuanpei, YU Shuxuan, et al. Air conditioner technology of combined thermal storage hot water by heat pump[J]. CIESC Journal, 2010(S2):125-129.

袁艳平,袁亚光,夏铭珠,等. 一种新型冷库冷凝热复合相变回收系统[P]. 实用新型,CN204718270U, 2015-10-21.

刘红娟,顾兆林. 空调冷凝热回收系统石蜡基相变材料的初步实验研究[J]. 流体机械,2003,31(增刊1):173-177. LIU Hongjuan, GU Zhaolin. Experimental study of paraffin wax based phase change materials(pcms)for the reclamation of cooliilg and condensation heat of air conditioning system[J]. Fluid Machinery, 2003, 31(S1):173-177.

GU Z, LIU H, LI Y. Thermal energy recovery of air conditioning system heat recovery system calculation and phase change materials development[J]. Applied Thermal Engineering, 2004, 24(S17/18):2511-2526.

METTAWEE E B S, ASSASSA G M R. Thermal conductivity enhancement in a latent heat storage system[J]. Solar Energy, 2007, 81(7):839-845.

KHAN M A,ROHATGI P K. Numerical solution to a moving boundary problem in a composite medium[J]. Numerical Heat Transfer,1994, 25(2):209-221.

ZHAO C Y, LU W, TIAN Y. Heat transfer enhancement for thermal energy storage using metal foams embedded within phase change materials (PCMs)[J]. Solar Energy, 2010, 84(8):1402-1412.

ZHANG N, YUAN Y, DU Y, et al. Preparation and properties of palmitic-stearic acid eutectic mixture/expanded graphite composite as phase change material for energy storage[J]. Energy, 2014(78):950-956.

XAVIER P, OLIVES R, MAURAN S. Paraffin/porous-graphite-matrix composite as a high and constant power thermal storage material[J]. International Journal of Heat and Mass Transfer, 2001, 44(14):2727-2737.

YUAN Y, ZHANG N, LI T, et al. Thermal performance enhancement of palmitic-stearic acid by adding graphene nanoplatelets and expanded graphite for thermal energy storage:a comparative study[J]. Energy, 2016(97):488-497.

RATHOD M K, BANERJEE J. Thermal performance enhancement of shell and tube Latent Heat Storage Unit using longitudinal fins[J]. Archives of Physical Medicine and Rehabilitation, 2014, 43(6):228-234.

SEDDEGH S, WANG X, HENDERSON A D. Numerical investigation of heat transfer mechanism in a vertical shell and tube latent heat energy storage system[J]. Applied Thermal Engineering, 2015(87):698-706.

袁艳平,曹晓玲,白力,等. 矩形单元内癸酸熔化特性的数值模拟与实验[J]. 西南交通大学学报,2012,47(2):236-240. YUAN Yanping, CAO Xiaoling, BAI Li, et al. Melting behaviors of capric acid in rectangular enclosure[J]. Journal of Southwest Jiaotong University, 2012, 47(2):236-240.

HENZE R H, HUMPHREY J A C. Enhanced heat conduction in phase-change thermal energy storage devices[J]. International Journal of Heat and Mass Transfer, 1981, 24(3):459-474.

STRITIH U. An experimental study of enhanced heat transfer in rectangular PCM thermal storage[J]. International Journal of Heat and Mass Transfer, 2004, 47(12):2841-2847.

KAMKARI B, SHOKOUHMAND H. Experimental investigation of phase change material melting in rectangular enclosures with horizontal partial fins[J]. International Journal of Heat and Mass Transfer, 2014, 78(11):839-851.

叶宏,程丹鹏,葛新石. 相变贮热管管内强化传热的数值研究[J]. 太阳能学报,2007,28(4):427-435. YE Hong, CHENG Danpeng, GE Xinshi. Numerical investigation on enhanced heat transfer in shell-and-tube phase change heat exchanger[J]. Acta Energiae Solaris Sinica, 2007, 28(4):427-435.

HOSSEINI M J, RANJBAR A A, RAHIMI M, et al. Experimental and numerical evaluation of longitudinally finned latent heat thermal storage systems[J]. Energy and Buildings, 2015(99):263-272.

AGYENIM F, EAMES P, SMYTH M. A comparison of heat transfer enhancement in a medium temperature thermal energy storage heat exchanger using fins[J]. Solar Energy, 2011, 73(9):2152-2174.

TAY N H S, BRUNO F, BELUSKO M. Comparison of pinned and finned tubes in a phase change thermal energy storage system using CFD[J]. Applied Energy, 2013, 104(2):79-86.

SCIACOVELLI A, GAGLIARDI F, VERDA V. Maximization of performance of a PCM latent heat storage system with innovative fins[J]. Applied Energy, 2015, 137(137):707-715.

KOIZUMI H. Time and spatial heat transfer performance around an isothermally heated sphere placed in a uniform, downwardly directed flow:in relation to the enhancement of latent heat storage rate in a spherical capsule[J]. Applied Thermal Engineering, 2004, 24(S17/18):2583-2600.

LACROIX M, BENMADDA M. Analysis of natural convection melting from a heated wall with vertically oriented fins[J]. International Journal of Numerical Methods for Heat and Fluid Flow, 1998, 8(4):465-478.

YAZICI M Y, AVCI M, AYDIN O, et al. Effect of eccentricity on melting behavior of paraffin in a horizontal tube-in-shell storage unit:An experimental study[J]. Solar Energy, 2014, 101(1):291-298.

YAZICI M Y, AVCI M, AYDIN O, et al. On the effect of eccentricity of a horizontal tube-in-shell storage unit on solidification of a PCM[J]. Applied Thermal Engineering, 2014, 64(1/2):1-9.

DARZI A R, FARHADI M, SEDIGHI K. Numerical study of melting inside concentric and eccentric horizontal annulus[J]. Applied Mathematical Modelling, 2012, 36(9):4080-4086.

DUTTA R, ARNAB Atta, DUTTA T K. Experimental and numerical study of heat transfer in horizontal concentric annulus containing phase change material[J]. Canadian Journal of Chemical Engineering, 2008, 86(4):700-710.

胡春妍,袁艳平,曹晓玲,等. 偏心单元内月桂酸融化传热研究及结构优化设计[J]. 太阳能学报,2015(8):2008-2015. HU Chunyan, YUAN Yanping, CAO Xiaoling, et al. heat transfer performance of lauric acid in eccentric unit[J]. Acta Energiae Solaris Sinica, 2015(8):2008-2015.

Relative Articles

Supplements(0)

Cited By

Proportional views

Proportional views

通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

Get Citation

PDF

XML

Article views(932) PDF downloads(703)

Research Status and Development on Latent Energy Storage Technology of Building

doi: 10.3969/j.issn.0258-2724.2016.03.017

Abstract

References

Proportional views

Catalog

通讯作者: 陈斌, bchen63@163.com

Proportional views

Related

Research Status and Development on Latent Energy Storage Technology of Building

doi: 10.3969/j.issn.0258-2724.2016.03.017

Abstract

References

Proportional views

Catalog

通讯作者: 陈斌, bchen63@163.com

Proportional views

Related

Export File

Citation

Format

Content