An experimental study of the accelerated quenching rate and enhanced pool boiling heat transfer on rodlets with a superhydrophilic surface in subcooled water

Jia-Qi Li; Lin-Wei Mou; Yu-Hong Zhang; Zhong-Shu Yang; Mu-Han Hou; Li-Wu Fan; Zi-Tao Yu

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An experimental study of the accelerated quenching rate and enhanced pool boiling heat transfer on rodlets with a superhydrophilic surface in subcooled water

机译：加氢水中过度水分脱落在罗布茨上加速淬火速率和增强池沸腾热传递的实验研究

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?Superhydrophilic surface was prepared on stainless steel rodlets by spray coating.

?Effect of degree of subcooling was studied parametrically from saturated to 50?C.

?Quenching time on the superhydrophilic surface at saturation was reduced by 50%.

?Quench front velocity was found to increase markedly with the degree of subcooling.

?Surface superhydrophilicity was examined to be durable by testing up to 100 times.

Abstract

Pool boiling heat transfer during quenching in su

机译：<！[cdata [

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< CE：简单段ID =“SP0010”View =“全部”>

？通过喷涂在不锈钢渣滓上制备超硫酸化表面。

？中冷却程度的效果是参数化的f rom饱和至50？c。

？饱和度上的超硫酸化表面上的淬火时间减少了50％。

？发现淬火前速度，以翻伞的程度显着增加。

？表面超级嗜含水性检查最多可持续100次。

抽象

苏苏淬火过程中的池沸腾热传递

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来源
《Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics》 |2018年第2018期|共10页
作者
Jia-Qi Li; Lin-Wei Mou; Yu-Hong Zhang; Zhong-Shu Yang; Mu-Han Hou; Li-Wu Fan; Zi-Tao Yu;
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作者单位

Institute of Thermal Science and Power Systems School of Energy Engineering Zhejiang University;

Institute of Thermal Science and Power Systems School of Energy Engineering Zhejiang University;

Institute of Thermal Science and Power Systems School of Energy Engineering Zhejiang University;

Institute of Thermal Science and Power Systems School of Energy Engineering Zhejiang University;

Institute of Thermal Science and Power Systems School of Energy Engineering Zhejiang University;

Institute of Thermal Science and Power Systems School of Energy Engineering Zhejiang University;

Institute of Thermal Science and Power Systems School of Energy Engineering Zhejiang University;

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原文格式 PDF
正文语种 eng
中图分类流体力学;
关键词
Critical heat flux; Leidenfrost point; Quenching; Rodlet; Subcooling; Superhydrophilic surface;

机译：临界热通量;leidenfrost点;淬火;罗格特;过冷;超硫酸化表面;

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1. An experimental study of the accelerated quenching rate and enhanced pool boiling heat transfer on rodlets with a superhydrophilic surface in subcooled water [J] . Jia-Qi Li, Lin-Wei Mou, Yu-Hong Zhang, Experimental Thermal and Fluid Science: International Journal of Experimental Heat Transfer, Thermodynamics, and Fluid Mechanics . 2018,第期

机译：加氢水中过度水分脱落在罗布茨上加速淬火速率和增强池沸腾热传递的实验研究
2. Pool boiling heat transfer on a nanoscale roughness-enhanced superhydrophilic surface for accelerated quenching in water [J] . Fan Li-Wu, Li Jia-Qi, Zhang Liang, Applied thermal engineering: Design, processes, equipment, economics . 2016,第Pta1期

机译：纳米级粗糙度增强的超亲水性表面上的池沸腾传热，用于水中的加速淬火
3. Enhanced pool boiling heat transfer during quenching of water on superhydrophilic porous surfaces: Effects of the surface wickability [J] . Jia-Qi Li, Lin-Wei Mou, Jia-Yi Zhang, International Journal of Heat and Mass Transfer . 2018,第octa期

机译：在超亲水性多孔表面上水淬火期间增强的池沸腾传热：表面芯吸性的影响
4. Experimental investigation of the transient pool boiling heat transfer on the quenching of vertical rodlet in water [C] . Zefeng Wang, Jian Deng, Libo Qian, International Conference on Nuclear Engineering . 2020

机译：瞬态池沸腾热传递对水中垂直罗克淬火的实验研究
5. Experimental Study of Enhanced Nucleate Pool Boiling Heat Transfer on Nanoporous Surfaces with Tightly Controlled Pore Size and Coating Thickness [D] . Rioux, Russell Paul, II. 2015

机译：孔尺寸和涂层厚度均受控的纳米孔表面增强形核池沸腾传热的实验研究
6. Enhanced pool-boiling heat transfer and critical heat flux on femtosecond laser processed stainless steel surfaces [O] . Corey M. Kruse, Troy Anderson, Chris Wilson, -1

机译：飞秒激光加工不锈钢表面上增强的池沸腾传热和临界热通量
7. Study of Boiling Characteristic Curves in Subcooled Pool Boiling of Water : 2nd Report, Effect of Contamination of Surface on Boiling Heat Transfer and Collapse Vapor Slug [O] . Shigeaki INADA, Yoshiki MIYASAKA, Shin SAKUMOTO, 1981

机译：水沸腾池沸水沸腾特性曲线的研究：第2次报告，表面污染对沸腾热传递和塌陷蒸汽块的影响

An experimental study of the accelerated quenching rate and enhanced pool boiling heat transfer on rodlets with a superhydrophilic surface in subcooled water

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