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Tapano Kumar Hotta
Tapano Kumar Hotta
Professor, School of Mechanical Engineering (SMEC), VIT Vellore
Verified email at vit.ac.in - Homepage
Title
Cited by
Cited by
Year
Phase Change Material Incorporation Techniques in Building Envelopes for Enhancing the Building Thermal Comfort-A Review
C Suresh, TK Hotta, SK Saha
Energy and Buidlings, 2022
612022
Statistical analysis of different machining characteristics of EN-24 alloy steel during dry hard turning with multi-layer coated cermet inserts
A Das, SK Patel, TK Hotta, BB Biswal
Measurement 134, 123 - 141, 2019
552019
A Comprehensive Review of Heat Pipe: Its Types, Incorporation Techniques, Methods of Analysis and Applications
J Jose, TK Hotta
Thermal Science and Engineering Progress 42, 101860, 2023
462023
Numerical investigation on optimal arrangement of IC chips mounted on a SMPS board cooled under mixed convection
VK Mathew, TK Hotta
Thermal Science and Engineering Progress 7, 221-229, 2018
442018
A review on cooling of discrete heated modules using liquid jet impingement
NG Patil, TK Hotta
Frontiers in Heat and Mass Transfer (FHMT) 11 (16), 2018
402018
Role of PCM based mini-channels for the cooling of multiple protruding IC chips on the SMPS board - A numerical study
VK Mathew, TK Hotta
Journal of Energy Storage 26, 2019
382019
An Optimal Approach for Improving the Machinability of Nimonic C 263 Superalloy During Cryogenic Assisted Turning
PS Jadhav, CP Mohanty, TK Hotta, M Gupta
Journal of Manufacturing Process 58, 693-705, 2020
362020
Optimal distribution of discrete heat sources under natural convection using ann–ga based technique
TK Hotta, SP Venkateshan
Heat Transfer Engineering 36 (2), 200-211, 2015
322015
Optimal distribution of discrete heat sources under mixed convection—a heuristic approach
T Kumar Hotta, C Balaji, SP Venkateshan
Journal of Heat Transfer 136 (10), 104503, 2014
302014
Experiment driven ANN-GA based technique for optimal distribution of discrete heat sources under mixed convection
TK Hotta, C Balaji, SP Venkateshan
Experimental Heat Transfer 28 (3), 298-315, 2015
282015
Effect of surface radiation heat transfer on the optimal distribution of discrete heat sources under natural convection
TK Hotta, P Muvvala, SP Venkateshan
Heat and Mass Transfer 49, 207-217, 2013
272013
Natural and mixed convection heat transfer cooling of discrete heat sources placed near the bottom on a PCB
TK Hotta, SP Venkateshan
Proc. World Acad. Sci. Eng. Technol 6 (8), 1446-1453, 2012
242012
Performance Enhancement of High Heat Generating IC Chips using Paraffin Wax Based Mini-channels – A Combined Experimental and Numerical Approach  
VK Mathew, TK Hotta
International Journal of Thermal Sciences 164, 106865, 2021
232021
Experimental Investigation of Substrate Board Orientation Effect on the Optimal Distribution of IC Chips under Forced Convection
VK Mathew, TK Hotta
Experimental Heat Transfer 34 (6), 564-585, 2021
182021
Experiment and numerical investigation on optimal distribution of discrete ICs for different orientation of substrate board
VK Mathew, TK Hotta
International Journal of Ambient Energy 43 (1), 1607-1614, 2022
162022
Numerical investigation of natural and mixed convection heat transfer on optimal distribution of discrete heat sources mounted on a substrate
MV Karvinkoppa, TK Hotta
IOP Conf. Series: Materials Science and Engineering 263, 062066, 2017
152017
A combined numerical simulation and optimization model for the cooling of IC chips under forced convection
NG Patil, TK Hotta
International Journal of Modern Physics - C (IJMPC) 31 (6), 2050081, 2020
132020
Role of working fluids on the cooling of discrete heated modules - A numerical approach
NG Patil, TK Hotta
SADHANA - Academy Proceedings in Engineering Sciences 43 (11), 187, 2018
122018
Heat Transfer Characteristics of High Heat Generating Integrated Circuit Chips Cooled Using Liquid Cold Plate—A Combined Numerical and Experimental Study
NG Patil, TK Hotta
ASME Journal of Thermal Science and Engineering Applications 13 (1), 2021
82021
Experimental Studies on Performance and Emission Measures of a 4-Stroke Compression Ignition Engine using Palm Bio-diesel Blended with N-butanol  
BN Behera, TK Hotta
Journal of Engineering Research, 2023
72023
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