Two-Dimensional Transient Thermal Analysis of a Phase-Change-Material Canister of a Heat-Pipe Receiver under Gravity 被引量：3

Two-Dimensional Transient Thermal Analysis of a Phase-Change-Material Canister of a Heat-Pipe Receiver under Gravity

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摘要 High-temperature Phase Change Material (PCM) is used as a thermal storage medium of a heat-pipe receiver in an advanced solar dynamic system.With both void cavity and natural convection considered,thermal performance of the heat-pipe receiver is numerically analyzed under gravity.The results indicate that the PCM contained in the integrated heat pipe performs an averaging function of heat loadings.The thermal performance of the heat-pipe receiver is stable and reliable.When a heating cycle is stable,the temperature fluctuations both on heat-pipe wall and in PCM canister remain less than 13 K throughout a sunlight and eclipse cycle.The utility of PCM is essentially improved.The maximum melting ratio of PCM is 92%.Under gravity,PCM melts more quickly with the effect of natural convection.Natural convection accelerates the process of phase changes.Numerical results are compared with the experimental results concerned.The accuracy of numerical model under gravity is verified.The experiment for the PCM canister on the ground can be well prepared with our numerical simulation.

作者 Xiaohong GUI Wei QU Bin LIN Xiugan YUAN

机构地区 Institute of Engineering Thermophysics University of Notre Dame Institute of Man-Machine-Environment Engineering

出处《Journal of Thermal Science》 SCIE EI CAS CSCD 2010年第2期160-166,共7页 热科学学报（英文版）

关键词 Heat-pipe Receiver Phase Change Material Void Cavity Natural Convection 重力作用相变材料瞬态热分析热管二维吸热料筒自然对流

分类号 O414.1 [理学—理论物理] Q945.7 [生物学—植物学]

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参考文献1

1董克用,袁修干.微重力条件下相变材料容器的二维瞬态热分析[J].太阳能学报,1998,19(1):41-47. 被引量：7

二级参考文献3

1Cao Y D，Int J Heat Mass Transf，1989年，32卷，7期，1289页
2蒋大鹏，硕士学位论文，1991年
3郭宽良，计算传热学，1988年

共引文献6

1邢玉明,侯欣宾,栗卫芳,杨春信,袁修干.空间发电系统热能储存容器的二维模型[J].航空动力学报,2000,15(3):263-267. 被引量：6
2桂小红,唐大伟,梁世强,袁修干.重力条件下热管吸热器相变材料容器热分析[J].工程热物理学报,2013,34(12):2305-2308.
3吕玉卓,路原睿,顾兆林.考虑对流换热的水平套管式蓄热体数值模拟[J].石油化工设备,2014,43(3):38-42. 被引量：2
4崔海亭,袁修干,侯欣宾.高温固液相变蓄热容器的研究与发展[J].太阳能学报,2002,23(3):383-386. 被引量：11
5桂小红,宋香娥.微重力条件下热管吸热器瞬态热分析[J].中国空间科学技术,2015,35(4):46-52. 被引量：2
6宋香娥.太阳能发电热管吸热器相变蓄热单元性能分析[J].热力发电,2015,44(9):37-42. 被引量：4

同被引文献26

1樊奇,羌宁.挥发性有机废气净化技术研究进展[J].四川环境,2005,24(4):40-44. 被引量：56
2张静,丁益民,陈念贻.相变储能材料的研究及应用[J].盐湖研究,2005,13(3):52-57. 被引量：31
3于勇.FLUENT入门与进阶教程[M].北京:北京理工大学出版社,2008.
4Pasupathy A, Athanasius L. Experimental investigation and numerical simulation analysis on the thermal per- formance of a building roof incorporation phase change material(PCM)for thermal management [J]. Applied ThermalEngineering, 2008, 8(5): 556-565.
5Mohamed Rady. Granular phase change material for thermal energy storage: Experiments and numerical simulation [J] . Applied Thermal Engineering, 2009 (29) : 3149-3159.
6Hamid Ait Adine, Hamid E1 Qarnia. Numerical analysis of the thermal behaviour of a shell-and-tube heat storage unit using phase change materials [J]. Applied Mathe- maticalModeling, 2009, 33(4): 2132-2144.
7CHOI B S, YI J. Simulation and Optimization on the Regenerative Thermal Oxidation of Volatile Organic Compounds [ J ]. Chemical Engineering Journal, 2000, 76(2) :103 - 114.
8封红燕.蓄热式换热器蓄热体强化传热的研究[D].广州:华南理工大学,2012.
9SHATIKIAN V, ZISKIND G, LETAN R. Numerical In- vestigation of a PCM - based Heat Sink with Internal Fins : Constant Heat Flux [ J ]. International Journal of Heat and Mass Transfer,2008,51 (5 -6) :1488 -1493.
10SHARMA A, TYAGI V V, CHEN C R, et al. Review on Thermal Energy Storage with Phase Change Mate- rials and Applications [ J ]. Renewable and Sustain- able Energy Reviews,2009,13 ( 2 ) : 318 - 345.

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1朱家玲,李慧,张伟.螺旋管式相变蓄热过程的数值模拟与系统优化[J].天津大学学报,2012,45(10):875-880. 被引量：16
2陈佳,冯毅.翅片缩放管相变蓄热体热工特性数值模拟[J].压力容器,2013,30(8):38-45. 被引量：18
3付杰,虞斌.分离式省煤器内水相变传热的数值研究[J].热能动力工程,2018,33(3):72-79. 被引量：2

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2胡涛,朱家玲,张伟.Experimental Investigation on System with Combination of Ground-Source Heat Pump and Solar Collector[J].Transactions of Tianjin University,2013,19(3):157-167. 被引量：4
3褚双磊.用于轴流风机的轴流叶轮气动性能试验研究[J].流体机械,2014,42(4):6-10. 被引量：13
4崔海亭,张改,蒋静智.多排管式相变蓄热器熔化过程热性能数值模拟研究[J].流体机械,2014,42(4):56-61. 被引量：6
5胡思科,邢姣娇.固体蓄热装置的蓄、放热特性数值模拟分析[J].流体机械,2014,42(8):78-83. 被引量：14
6金星,张双龙,张小松.新戊二醇相变蓄能材料部分熔化时步冷试验研究[J].流体机械,2014,42(10):69-72.
7冯毅,田丽军,陈佳.环状与蜂窝蓄热体传热与阻力特性试验研究[J].压力容器,2014,31(9):14-22. 被引量：7
8赵立新,赵宇,徐保蕊,蒋明虎.基于正交的二次分离旋流器结构优选数值分析[J].流体机械,2015,43(5):15-18. 被引量：8
9张志强,陈华,周楚.相变蓄热系统放热过程性能实验研究[J].制冷学报,2015,36(3):102-107. 被引量：4
10艾子健,秦国良,陈雪飞,林静祥.叶片通用扭曲规律的拓展及抛物线流型的控制[J].流体机械,2015,43(6):19-24. 被引量：1

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2乔保卫,冯洁,赖云锋,凌云,林殷茵,汤庭鳌,蔡炳初,陈邦明.Improvement of Electrical Properties of the Ge2Sb2Te5 Film by Doping Si for Phase-Change Random Access Memory[J].Chinese Physics Letters,2006,23(1):172-174. 被引量：2
3马向平,骆清国.瞬态温度场有限元法求解的研究[J].装甲兵工程学院学报,2002,16(2):22-26. 被引量：6
4北极熊的毛是什么颜色的？[J].雨花（青少刊）（逗号）,2009(2):40-40.
5张振伟,朱艳敏,李学兵.旋转闪蒸干燥机叶片的瞬态热分析[J].机械设计与制造,2007(6):63-65. 被引量：2
6CHEN Wenzhen ZHAO Yuansong SUN Fengrui ZHU Bo GONG Miao.Analysis of melting driven by friction and temperature difference under sliding plate[J].Progress in Natural Science:Materials International,2007,17(3):366-370.
7胡志新,张陵,何巨.一种新型高灵敏度光纤布拉格光栅压力传感器(英文)[J].应用光学,2005,26(1):39-41. 被引量：2
8叶岱夫.人类直立与环境适应[J].百科知识,2008(23):22-23.
9吴永恒,蔡余峰,曾华东,阮文.碱金属锂原子修饰硅原子链团簇的结构和储氢性能[J].井冈山大学学报（自然科学版）,2015,36(5):24-29. 被引量：4
10何建平,张见明,李光耀,郭帅平.混凝土坝瞬态热传导分析的快速边界面法[J].水利水电科技进展,2016,36(1):71-76.

Journal of Thermal Science

2010年第2期

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