ANALYTICAL MODELING OF A LOOP HEAT PIPE AT POSITIVE ELEVATION

机译：高程环流热管的解析模型

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A two-phase heat transfer device, a loop heat pipe (LHP), is studied analytically. It is noted that a LHP behaves differently when it is operated against gravity (adverse elevation) or at gravity assisted (positive elevation) conditions. Steady-state modeling of LHP operating characteristics at adverse or zero elevation was broadly studied in the past. This paper presents a steady-state model of a LHP when it is operated at positive elevation based on experimental results. The effects of elevation on the trend of steady-state operating temperature (SSOT) are then studied using the newly developed steady-state model. Experimental results agree with the model predictions at adverse (88.9mm), zero, and positive (88.9mm) elevations. This steady-state model is the only model known to have the capability to predict the operating characteristics at positive elevation. The model will help to design the LHPs utilized in terrestrial applications.

机译：分析研究了一种两相传热装置，即环路热管（LHP）。注意，当LHP在重力（逆向仰角）或重力辅助（正向仰角）条件下运行时，其行为会有所不同。过去，广泛研究了逆向或零仰角LHP运行特性的稳态模型。基于实验结果，本文提出了LHP在正高空运行时的稳态模型。然后使用新开发的稳态模型研究了海拔高度对稳态工作温度（SSOT）趋势的影响。实验结果与模型在负（88.9mm），零和正（88.9mm）仰角上的预测一致。该稳态模型是已知的唯一能够预测正高程运行特性的模型。该模型将有助于设计用于地面应用的LHP。

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《HTD-vol.375-2; American Society of Mechanical Engineers(ASME) International Mechanical Engineering Congress and Exposition vol.2; 20041113-19; Anaheim,CA(US)》|2004年|P.629-635|共7页
会议地点 AnaheimCA(US)
作者
Po-Ya Abel Chuang; C. Thomas Conroy; John M. Cimbala; Jack S. Brenizer Jr.;
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作者单位

The Pennsylvania State University Department of Mechanical and Nuclear Engineering;

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原文格式 PDF
正文语种 eng
中图分类热工量测和热工自动控制的应用;
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4. ANALYTICAL MODELING OF A LOOP HEAT PIPE AT POSITIVE ELEVATION [C] . Po-Ya Abel Chuang, John M. Cimbala, Jack S. Brenizer, ASME International Mechanical Engineering Congress and Exposition . 2004

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ANALYTICAL MODELING OF A LOOP HEAT PIPE AT POSITIVE ELEVATION

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