[1]赵孝保,李奇贺,董宏伟,等.平面布置振荡热管壁面温度分布特性实验研究[J].南京师范大学学报(工程技术版),2005,05(01):016-19.
 ZHAO Xiaobao,LI Qihe,DONG Hongwei,et al.Experimental Research about the Wall Temperature Distribution on the Oscillating Heat Pipe Fixed up as a Plate[J].Journal of Nanjing Normal University(Engineering and Technology),2005,05(01):016-19.
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平面布置振荡热管壁面温度分布特性实验研究
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南京师范大学学报(工程技术版)[ISSN:1006-6977/CN:61-1281/TN]

卷:
05卷
期数:
2005年01期
页码:
016-19
栏目:
出版日期:
2005-03-30

文章信息/Info

Title:
Experimental Research about the Wall Temperature Distribution on the Oscillating Heat Pipe Fixed up as a Plate
作者:
赵孝保李奇贺董宏伟恽超
南京师范大学动力工程学院, 江苏南京210042
Author(s):
ZHAO Xiaobao LI Qihe DONG Hongwei YUN Chao
School of Power Engineering, Nanjing Normal University, Jiangsu Nanjing 210042, China
关键词:
振荡热管 温度分布 平板表面 温度均匀度
Keywords:
o sc illating hea t pipe tem pera ture distribution p la te surface temperature even
分类号:
TK124
摘要:
实验测量了由振荡热管冷凝段构成的平板表面中管束壁面上横向和纵向温度,对升负荷和降负荷过程中壁面温 度分布特性进行了分析.实验表明平板表面外侧管壁面温度波动幅度较大,中间点温度比较均匀;受管束内汽液流动及剧烈 振荡的影响,在热管蒸发段壁面温度达到90℃时,平板表面温度均匀程度最好;当蒸发段壁面温度为120℃时,横向各点温 度相差比较大.管束壁面纵向温度分布实验表明:蒸发段壁面温度为40℃时,热管未启动;而在120℃时热管完全启动,各测 点温度相差不大;在60℃~80℃时,纵向温度相差较大,温度分布不均匀,靠近蒸发段的测点温度升高较快;蒸发段壁面温度 在80℃以上时,平板表面纵向温度趋于均匀.
Abstract:
A plate surface was form ed w ith the condensing sec tion tubes o f the O sc illating H eat Pipe, the tube w a ll tem perature is expe rim entally m easured a long the crossw ise and vertica l d irection o f the Osc illa ting H ea t Pipe, and som e analyses arem ade about the tem pe rature d istributive character istics during the rising heating load and the decl-i n ing heating load. The experim ent show s that the temperature on the outside tube is fluctuated apparently but is even in the center, and that when the evapo ra ting section tem pera ture r ises up to 90℃ , the p la te surface tem perature is a t the best even, but that when the evaporating section tem pera ture r ises up to 120℃ , the crossw ise temperatu re is no t the sam e, and tha tw hen the evaporating section tem pera ture rises up to 40℃ , the oscillating heat pipe is not started, but that when the temperature r ises up to 120℃ , the heat pipe is fully started and the ve rtica lw all temperature is the sam e; and thatw hen the evapo ra ting section temperature is betw een 60~ 80℃ , the verticalw a ll tem pera ture is different and the temperature near the ev aporating section r ises quickly, and tha tw hen the evapo ra ting section tem pe ra ture r ises up to 80℃ , the ve rtica l tem pe rature on the plate sur face is even.

参考文献/References:

[ 1] Akach iH. Structure o f a H ea t Pipe [ Z]. U. S. Patent, No. 4921041, 1990.
[ 2] 杨蔚原, 张正芳, 马同泽. 脉动热管运行的可视化实验研究[ J ]. 工程热物理学报, 2001, 22 ( 增刊): 203-209.
[ 3] 马永锡, 张红, 庄骏. 振荡热管— 一种新型独特的热管[ A ]. 第九届全国热管会议论文集[ C ]. 昆明, 2004: 379-383.
[ 4] N ish io S, Nagata S, Baba S, et al. Therm a l perform ance of SEMOS heat p ipes [ A ]. G renoble, France, 2002, Pro c. 12th Int. H eat Trans. Conf[ C]. 4: 477-482.
[ 5] 曲伟, 马同泽. 脉动热管运行特性的半可视化实验研究[ A]. 第八届全国热管会议论文集[ C]. 成都, 2002: 47-56.
[ 6] G iK, Sato F, M aezaw a S. F low v isua lization experim ent on oscillating heat p ipe[ A]. Tokyo, Japan, 1999, Proc. 11th In t. H eat P ipe Conf[ C ]. 149-153.
[ 7] Akach iH, Po lasek F, Stulc P. Pulsa ting heat p ipe[ A]. M elbourne, Austra lia, 1996, Proc. o f the 5th Inte rnational H eat Pipe Sym posium [ C ]. 208-216.
[ 8] Charoensawan P, Khandekar S, G ro llM, et al. C losed loop pulsating heat pipes-Pa rtA: Param etr ic expe rim en tal Investigations[ J]. App. Therma l Eng ineer ing, 2003, 23 ( 16): 2009-2020

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备注/Memo

备注/Memo:
基金项目: 江苏省高校自然科学基金资助项目( 01KGB47003) .
作者简介: 赵孝保( 1962 - ) , 博士, 副教授, 主要从事小空间汽液两相流动与传热, 热管技术等方面的教学与研究.E-m ail:zhaoxiaobao@ n jnu. edu. cn
更新日期/Last Update: 2013-04-29