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基于微层蒸发强化传热理论,对热虹吸管内部设置分流管结构强化沸腾传热机理进行了分析,建立了分流管强化热虹吸管内部沸腾传热模型,并通过大量试验研究验证了理论分析的正确性;同时对热管换热器能量控制方程采用有限差分法进行了数值模拟计算,计算结果与试验结果吻合良好,不仅证明强化传热理论分析与计算方法的正确性,而且表明热管内部强化传热有利于提高热管换热器传热能力、改善热管换热器传热性能及优化热管换热器结构,为工程应用提供依据。
Abstract:The boiling heat transfer enhancing mechanism inside the thermosyphon with the perforated pipe was analytically studied, and a mathematical model describing the enhancing boiling heat transfer in evaporation region was proposed based upon the microlayer evaporation theory. The results were verified by a great deal of experiments. Energy equation was calculated by infinite difference method and the numerical results agree well with the experiments. It shows that heat transfer enhancement inside heat pipe can increase heat transfer capability, improve heat transfer characteristics and optimize the structure of the heat pipe heat exchanger. The propesed model and calculating methed are useful for the engineering applications.
[1]WU Jin-xing(吴金星等),WEI Xin-li(魏新利),DONG Qi-wu(董其伍),LIU Min-shan(刘敏珊).Progress in study of enhancement heat transfer of longitudinal flow for shell-and-tube heat exchanger(纵向流管壳式换热器强化传热研究与发展)[J].PetroleumMachinery(石油机械).2002,30(4):49-52.
[2]DENG Xian-he(邓先和),WANG Shi-ping(王世平),LIN Pei-sen(林培森),DENG Song-jiu(邓颂九).Effect of the film shape of transversal outside finned tube on heat transfer of longitudinal flow(管外周向低翅片翅形对纵向流传热性能的影响)[J].J ChemEng ofChineseUniv(高校化学工程学报),1995,9(4):387-391.
[3]WANG Guo-qing(王国庆),XIE Zhi-wei(谢致微),WANG Shi-ping(王世平),TAN Ying-ke(谭盈科).Nucleate pool boiling heat transfer of methanol on an improved type of mechanically processed tubes with porous surface(甲醇在改进型机加工多孔管上池核沸腾换热特性的研究)[J].J ChemEng ofChineseUniv(高校化学工程学报),2002,14(2):174-178.
[4]FaghriA.HeatPipeScienceAndTechnology[M].Philadelphia,USA:Taylor&Francis,1995.
[5]ZHUANG Jun(庄骏),ZHANG Hong(张红)著.HeatPipeTechnology andEngineeringApplication(热管技术及其工程应用)[M].Beijing(北京);ChemicalIndustryPress(化学工业出版社),2000.
[6]YI TENG Meng-hong(伊藤猛宏),TENG TIAN Geng-shen(藤田恭伸),XI CUAN Jian-kang(西川兼康).High performance heat transfer surface of nuclear boiling heat transfer(核沸腾热传递の高性能传热面)[J].MachineryReseach(机械の研究),1979,31(1):77.
[7]SUN Shi-mei(孙世梅),ZHUAN Jun(庄骏),ZHANG Hong(张红).Study ofInternalEnhancedBoilingHeatTransferMechanism inCarbon-SteelWaterThermosyphon(碳钢-水热虹吸管内部强化沸腾传热理论研究)[D].Nanjing(南京);NanjingUniversity ofChemicalIndustry(南京化工大学),1997.
[8]SUN Shi-mei(孙世梅),ZHANG Hong(张红),CHEN Dan(陈丹),ZHUAN Jun(庄骏).Simulation design of high temperature heat pipe heat exchanger(高温热管换热器模拟设计)[J].Petro-ChemicalEquipment(石油化工设备),2003,32(3):23-26.
基本信息:
中图分类号:TQ05
引用信息:
[1]孙世梅,张红,庄骏.基于管内微层蒸发传热机理的热管换热器传热强化研究[J],2004(06):685-689.