MAXIMUM SURFACE HEAT FLUX DURING JET IMPINGEMENT QUENCHING OF VERTICAL HOT SURFACE

Agarwal C.; Kumar R.; Gupta A.; Chatterjee B.

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MAXIMUM SURFACE HEAT FLUX DURING JET IMPINGEMENT QUENCHING OF VERTICAL HOT SURFACE

机译：垂直热表面射流冲击淬火期间的最大表面热通量

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The rapid quenching of a hot surface is desirable in several industrial applications, e.g., metal processing, nuclear power plants, electronics, etc. Therefore, an experimental investigation has been carried out on a hot vertical stainless steel surface of 0.25 mm thickness at 800 +/- 10 degrees C initial temperature. The surface has been quenched with the impingement of a round water jet in the range of 2.5-4.8 mm diameters. The maximum surface heat flux during quenching has been determined for jet Reynolds number in the range of Re = 5000-24,000. The observations are made from the stagnation point to the 24 mm downstream spatial locations, for both upside and downside directions of the test surface. It has been observed that the maximum surface heat flux increases with the rise in jet Reynolds number and jet diameter. The correlation proposed to determine the maximum surface heat flux predicts the experimental data within an error band of +/- 20%. The published correlation for the horizontal surface predicts the experimental data of maximum surface heat flux within the range of +40% to -20%.

机译：在一些工业应用中，例如金属加工，核电站，电子设备等，需要对热表面进行快速淬火。因此，已经对厚度为0.25 mm的热垂直不锈钢表面在800 +的温度下进行了实验研究。 /-初始温度10摄氏度。通过在直径为2.5-4.8 mm范围内的圆形水射流的冲击下淬火了表面。对于急流雷诺数，已经确定了淬火过程中的最大表面热通量，范围为Re = 5000-24,000。对于测试表面的上下方向，从停滞点到下游24 mm空间位置进行观察。已经观察到，最大表面热通量随着射流雷诺数和射流直径的增加而增加。建议的确定最大表面热通量的相关性可在+/- 20％的误差带内预测实验数据。已发布的水平表面相关性预测最大表面热通量在+ 40％到-20％范围内的实验数据。

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《Journal of enhanced heat transfer》 |2015年第3期|199-219|共21页
作者
Agarwal C.; Kumar R.; Gupta A.; Chatterjee B.;
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作者单位

Maharana Pratap Univ Agr & Technol, Coll Technol & Engn, Dept Mech Engn, Udaipur 313001, India;

Indian Inst Technol, Dept Mech & Ind Engn, Roorkee 247667, Uttar Pradesh, India;

Indian Inst Technol, Dept Mech & Ind Engn, Roorkee 247667, Uttar Pradesh, India;

Bhabha Atom Res Ctr, Reactor Safety Div, Bombay 400085, Maharashtra, India;

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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
关键词
forced convection boiling; jet impingement; peak heat flux; two phase flow; transient cooling;

机译：强制对流沸腾;射流冲击;峰值热通量;两相流;瞬态冷却;

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1. Rewetting and maximum surface heat flux during quenching of hot surface by round water jet impingement [J] . Chitranjan Agrawal, Ravi Kumar, Akhilesh Gupta, International Journal of Heat and Mass Transfer . 2012,第17a18期

机译：圆水射流冲击在热表面淬火过程中的再润湿和最大表面热通量
2. Maximum heat flux in relation to quenching of a high temperature surface with liquid jet impingement [J] . Aloke Kumar Mozumder, Masanori Monde, Peter Lloyd Woodfield, International Journal of Heat and Mass Transfer . 2006,第17a18期

机译：与喷液冲击引起的高温表面淬火有关的最大热通量
3. Effect of jet diameter on the maximum surface heat flux during quenching of hot surface [J] . Chitranjan Agrawal, Ravi Kumar, Akhilesh Gupta, Nuclear Engineering and Design . 2013,第deca期

机译：热表面淬火过程中射流直径对最大表面热通量的影响
4. Effect of Wetting Delay on Maximum Heat Flux Propagation Velocity during Water Jet Impingement Quenching [C] . Aloke MOZUMDER, Peter WOODFIELD, Ashraful ISLAM, 日本伝熱シンポジウム . 2006

机译：润湿延迟对水喷射冲击淬火期间最大热通量传播速度的影响
5. Numerical investigation of mechanisms to aid in enhancing surface heat transfer from an impinging 2D hot-air jet. [D] . Ahmed Khan, Mohammad Mumtaz. 2010

机译：数值模拟机制有助于增强从撞击的2D热空气射流传出的表面热量。
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. High-resolution hot-film measurement of surface heat flux to an impinging jet [O] . ODonovan T. S., Persoons T., Murray D. B. 2011

机译：高分辨率热膜测量撞击射流的表面热通量
8. Spot Cooling and Heating of Surfaces with High Velocity Impinging Air Jets. Part 2. Circular Jets on Plane and Curved Surfaces, Slot Jets on Curved Surfaces [R] . Walz, D. R. 1964

机译：高速冲击空气射流的表面冷却和加热。第2部分：平面和曲面上的圆形射流，曲面上的槽射流

MAXIMUM SURFACE HEAT FLUX DURING JET IMPINGEMENT QUENCHING OF VERTICAL HOT SURFACE

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