Insight to Innovation: An Overview of Research Journey of Dr. Satish Kandlikar

ASME 2020 18th International Conference on Nanochannels, Microchannels, and Minichannels Pub Date : 2020-07-13 DOI:10.1115/icnmm2020-1071

P. Raghupathi, A. Owens, M. Steinke, T. Lin, Ankit Kalani, D. C. Moreira, J. Gonzalez-Hernandez, Zujie Lu, R. Banerjee, Michael M. Daino, Arvind Jaikumar, A. Chauhan, A. Rishi, I. Perez-Raya, Travis S. Emery, Fernando Guimarães Aguilar

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引用次数: 1

Abstract

Professor Satish G. Kandlikar has been an outstanding researcher in the field of heat transfer having published some of the most widely cited publications over the last 30 years. Through the years he has co-authored 212 journal paper in various areas of heat transfer. The present paper provides a compressive look at Professor Kandlikar’s research work over the years. The research work has been broadly categorized into 1) flow boiling correlations, 2) fluid flow and heat transfer in microchannels, 3) roughness effect at microscale, 4) pool boiling heat transfer and CHF modeling, 5) surface enhancements for pool boiling, 6) numerical modeling of bubble growth in boiling, 7) modeling liquid-vapor and liquid-liquid interfaces, 8) water transport in PEM fuel cells and 9) infrared imaging to detect breast cancer. The research conducted in each of these areas has produced some landmark findings, some of the most widely used theoretical models and an abundance of high quality experimental data. The focus of this paper is to collate major finding and highlights some of the common themes that guided the research in Professor Kandlikar’s group. This will help the readers gain a comprehensive understanding of each of the areas of study in Professor Kandlikar’s group and place the findings of the paper in a larger context.

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洞察创新:萨蒂什·坎德利卡博士研究历程综述

教授Satish G. Kandlikar一直是一个杰出的研究人员在传热领域发表了一些最广泛引用的出版物在过去的30年。多年来，他在传热的各个领域共同撰写了212篇期刊论文。本文简要介绍了坎德利卡教授多年来的研究工作。研究工作大致分为:1)流动沸腾的相关性，2)微通道内的流体流动和传热，3)微尺度下的粗糙度效应，4)池沸腾传热和CHF建模，5)池沸腾的表面增强，6)沸腾中气泡生长的数值模拟，7)液体-蒸汽和液体-液体界面的模拟，8)PEM燃料电池中的水传输，9)红外成像检测乳腺癌。在这些领域进行的研究产生了一些具有里程碑意义的发现，一些最广泛使用的理论模型和大量高质量的实验数据。本文的重点是整理主要发现，并突出一些共同的主题，指导研究在Kandlikar教授的小组。这将有助于读者对Kandlikar教授小组的每个研究领域有一个全面的了解，并将论文的发现置于更大的背景下。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ASME 2020 18th International Conference on Nanochannels, Microchannels, and Minichannels

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