Effect of gravity on cryogenic boiling heat transfer during tube quenching

Osamu Kawanami; Hisao Azuma; Haruhiko Ohta

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Effect of gravity on cryogenic boiling heat transfer during tube quenching

机译：重力对管淬火过程中低温沸腾传热的影响

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摘要

Cryogenic forced convective boiling under terrestrial and microgravity conditions for the development of cryogenic fluid management on orbit is studied. The experiments are conducted in a low mass velocity region (100-300 kg/m~2 s) that is easily influenced by gravity, and fluid behavior observations and heat transfer measurements are performed simultaneously. These experiments aim at understanding the effect of gravitational acceleration on the relation between the flow behavior and thermal characteristics during the quenching of the tube by a cryogenic fluid. The heat transfer increases under microgravity conditions, and results from an increase in the quench front velocity.

机译：研究了地面和微重力条件下的低温强制对流沸腾技术，以发展轨道上的低温流体管理。实验在容易受到重力影响的低质量速度区域（100-300 kg / m〜2 s）中进行，同时进行了流体行为观察和传热测量。这些实验旨在了解重力加速度对低温流体淬灭管子期间流动行为与热特性之间关系的影响。在微重力条件下，传热增加，这是由淬火前沿速度的增加引起的。

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来源
《International Journal of Heat and Mass Transfer》 |2007年第18期|p.3490-3497|共8页
作者
Osamu Kawanami; Hisao Azuma; Haruhiko Ohta;
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作者单位

Department of Mechanical System and Engineering, University of Hyogo, 2167 Shosha, Himeji, Hyogo 671-2201, Japan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类热力工程理论;热学;
关键词
cryogenics; forced convective boiling; microgravity; heat transfer;

机译：低温;强制对流沸腾;微重力;传热;

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专利

1. Flow and Heat Transfer on Cryogenic Flow Boiling During Tube Quenching under Upward and Downward Flow [J] . Osamu Kawanami, Teruo Nishida, Itsuro Honda, Microgravity science and technology . 2007,第3a4期

机译：上下流动管淬火过程中低温流动沸腾的流动和传热
2. Assessment of existing two phase heat transfer coefficient and critical heat flux correlations for cryogenic flow boiling in pipe quenching experiments [J] . Jason Hartwig, Samuel Darr, Anthony Asencio International Journal of Heat and Mass Transfer . 2016,第FEBa期

机译：在管道淬火实验中评估现有的两相传热系数和临界热通量以进行低温流沸腾
3. An experimental investigation of flow boiling heat transfer and pressure drop of R134a in a horizontal 2.168 mm tube under hypergravity. Part Ⅱ: Heat transfer coefficient [J] . Yu Xu, Xiande Fang, Guohua Li, International Journal of Heat and Mass Transfer . 2015,第jana期

机译：超重力下水平2.168 mm管中R134a的流沸腾传热和压降的实验研究。第二部分：传热系数
4. Microgravity Cryogenic Boiling Heat Transfer with Application to ZBO and Pipe Chilldown [C] . J. N. Chung, W. Shyy, K. Yuan, Cryogenic Engineering Conference . 2004

机译：微再生低温沸腾热传递与ZbO和管道寒冷的应用
5. Flow boiling heat transfer in the quenching of a hot tube under microgravity conditions [D] . Westbye, Christopher John 1992

机译：微重力条件下热管淬火中的流沸腾传热
6. An advance in transfer line chilldown heat transfer of cryogenic propellants in microgravity using microfilm coating for enabling deep space exploration [O] . J. N. Chung, Jun Dong, Hao Wang, 2021

机译：微杂珠涂层实现微杂物涂层的低温推进剂转移线寒冷传热的进展实现深空探索
7. Closure to “Discussion of ‘Boiling Heat Transfer With Cryogenic Fluids at Standard, Fractional, and Near-Zero Gravity’” (1964, ASME J. Heat Transfer, 86, pp. 358–359) [O] . H. Merte, J. A. Clark 1964

机译：在标准，分数和接近零重力下的低温流体（1964，ASME J.传热，86，PP，358-359）封闭“讨论”沸腾热传递沸腾热传递
8. Cryogenic Liquid Experiments in Orbit. Volume II - Bubble Mechanics, Boiling Heat Transfer, and Propellant Tank Venting in a Zero-Gravity Environment [R] . Larkin, B. K., Mc Grew, J. L. 1966

机译：轨道低温液体实验。第二卷 - 零重力环境中的气泡力学，沸腾传热和推进剂储罐通风

Effect of gravity on cryogenic boiling heat transfer during tube quenching

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