Heat Transfer Properties and Chaotic Analysis of Parallel Type Pulsating Heat Pipe

The refrigerant mixture of ethanol aqueous was applied to the parallel type pulsating heat pipe （PHP）. The operation characteristics of the PHP were analyzed by means of experiment and nonlinear chaotic theory. Moreover, the relationship between the running state and attractor was described. The res...

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Published in	Transactions of Tianjin University Vol. 17; no. 6; pp. 435 - 439
Main Authors	Shi, Weixiu, Li, Weiyi, Pan, Lisheng, Tan, Xifeng
Format	Journal Article
Language	English
Published	Heidelberg Tianjin University 01.12.2011 School of Mechanical Engineering, Tianjin University, Tianjin 300072, China
Subjects	Engineering Humanities and Social Sciences Mechanical Engineering multidisciplinary Science 乙醇水溶液传热性能并行混合制冷剂混沌分析脉动热管运行特点运行状态 parallel type pulsating heat pipe attractor ethanol aqueous chaotic analysis
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Abstract	The refrigerant mixture of ethanol aqueous was applied to the parallel type pulsating heat pipe （PHP）. The operation characteristics of the PHP were analyzed by means of experiment and nonlinear chaotic theory. Moreover, the relationship between the running state and attractor was described. The results indicate that starting power, stable running power and dry burning transition power are about 64.08 W, 148.68 W and 234.0 W respectively. The cycle and amplitude of PHP initially decrease and then increase with the increasing power. However, the data are well- distributed in a certain range. The running state is in agreement with the attractors, and the changing process for attrac- tors is as follows： the attractors first disperse in the whole phase space, then present mass status, and finally show band distribution.
AbstractList	The refrigerant mixture of ethanol aqueous was applied to the parallel type pulsating heat pipe （PHP）. The operation characteristics of the PHP were analyzed by means of experiment and nonlinear chaotic theory. Moreover, the relationship between the running state and attractor was described. The results indicate that starting power, stable running power and dry burning transition power are about 64.08 W, 148.68 W and 234.0 W respectively. The cycle and amplitude of PHP initially decrease and then increase with the increasing power. However, the data are well- distributed in a certain range. The running state is in agreement with the attractors, and the changing process for attrac- tors is as follows： the attractors first disperse in the whole phase space, then present mass status, and finally show band distribution. TK172.4; The refrigerant mixture of ethanol aqueous was applied to the parallel type pulsating heat pipe (PHP).The operation characteristics of the PHP were analyzed by means of experiment and nonlinear chaotic theory.Moreover,the relationship between the running state and attractor was described.The results indicate that starting power,stable running power and dry burning transition power are about 64.08 W,148.68 W and 234.0 W respectively.The cycle and amplitude of PHP initially decrease and then increase with the increasing power.However,the data are well-distributed in a certain range.The running state is in agreement with the attractors,and the changing process for attractors is as follows:the attractors first disperse in the whole phase space,then present mass status,and finally show band distribution. The refrigerant mixture of ethanol aqueous was applied to the parallel type pulsating heat pipe (PHP). The operation characteristics of the PHP were analyzed by means of experiment and nonlinear chaotic theory. Moreover, the relationship between the running state and attractor was described. The results indicate that starting power, stable running power and dry burning transition power are about 64.08 W, 148.68 W and 234.0 W respectively. The cycle and amplitude of PHP initially decrease and then increase with the increasing power. However, the data are well-distributed in a certain range. The running state is in agreement with the attractors, and the changing process for attractors is as follows: the attractors first disperse in the whole phase space, then present mass status, and finally show band distribution.
Author	SHI Weixiu LI Weiyi PAN Lisheng TAN Xifeng
AuthorAffiliation	School of Mechanical Engineering, Tianjin University, Tianjin 300072, China
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Cites_doi	10.1016/j.applthermaleng.2007.10.019 10.1016/j.applthermaleng.2003.11.006 10.1016/j.ijheatmasstransfer.2009.02.030 10.1016/j.applthermaleng.2005.01.009 10.1016/j.apenergy.2006.09.010 10.1016/S1359-4311(02)00215-6 10.1016/j.ijheatmasstransfer.2009.03.012 10.1007/BFb0091924 10.1007/s10404-005-0061-8 10.1016/S1359-4311(03)00159-5 10.7498/aps.51.2719
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Notes	12-1248/T parallel type pulsating heat pipe; ethanol aqueous; attractor; chaotic analysis The refrigerant mixture of ethanol aqueous was applied to the parallel type pulsating heat pipe （PHP）. The operation characteristics of the PHP were analyzed by means of experiment and nonlinear chaotic theory. Moreover, the relationship between the running state and attractor was described. The results indicate that starting power, stable running power and dry burning transition power are about 64.08 W, 148.68 W and 234.0 W respectively. The cycle and amplitude of PHP initially decrease and then increase with the increasing power. However, the data are well- distributed in a certain range. The running state is in agreement with the attractors, and the changing process for attrac- tors is as follows： the attractors first disperse in the whole phase space, then present mass status, and finally show band distribution.
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Publisher	Tianjin University School of Mechanical Engineering, Tianjin University, Tianjin 300072, China
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Snippet	The refrigerant mixture of ethanol aqueous was applied to the parallel type pulsating heat pipe （PHP）. The operation characteristics of the PHP were analyzed... The refrigerant mixture of ethanol aqueous was applied to the parallel type pulsating heat pipe (PHP). The operation characteristics of the PHP were analyzed... TK172.4; The refrigerant mixture of ethanol aqueous was applied to the parallel type pulsating heat pipe (PHP).The operation characteristics of the PHP were...
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Title	Heat Transfer Properties and Chaotic Analysis of Parallel Type Pulsating Heat Pipe
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