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Experimental research of flow boiling heat transfer with nanotube arrays surface on titanium

WANG Xinliang 1,YANG Wengang 2,SHI Xiaoping 1,TAO Jinliang 1,XING Xiaokang 1   

  1. 1 Institute of Chemical,Hebei University of Technology,Tianjin 300130,China;2 China Nation Offshore Oil Corp Gas & Power Group,Beijing 100007,China
  • Online:2013-08-05 Published:2013-08-05

纳米管阵列表面流动沸腾传热特性的实验研究

王新亮1,杨文刚2,史晓平1,陶金亮1,邢晓康1   

  1. 1河北工业大学化工学院,天津 300130;2中海石油气电集团有限责任公司,北京 100007

Abstract: A nano-film with structure of tube arrays was prepared on the inner surface of titanium tube via anodic oxidization. Taking deionized water as the working fluid,the flow boiling heat transfer properties of the nanoporous surface vertical tube with electrically heated outside surface were studied at constant mass velocity employed by forced circulation. The flow boiling heat transfer coefficient correlation of the tube was obtained. Compared to the smooth tube,the flow boiling heat transfer temperature differences were lowered 30%—55%,and its boiling heat transfer coefficient could be increased 1.5—2.2 times.

Key words: TiO2, nanotube, enhanced heat transfer, flow boiling, titanium dioxide(TiO2), nanotube arrays, enhanced heat transfer, flow boiling

摘要: 利用阳极氧化法在钛换热管内表面制备出了一层管阵列结构纳米薄膜。以该纳米管阵列表面管为传热元件,蒸馏水为工质,采用管外电加热竖管强制循环工艺,在恒质量流速下考察了纳米管阵列表面管的流动沸腾传热性能。在实验的基础上,得出了纳米管阵列表面管流动沸腾传热系数关联式。实验结果表明,与光滑表面管相比,流动沸腾传热温差降低了30%~55%,在没有增加阻力的情况下,沸腾传热系数提高了1.5~2.2倍。

关键词: 二氧化钛, 纳米管, 强化传热, 流动沸腾, 二氧化钛, 纳米管阵列, 强化传热, 流动沸腾

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