Hari Mohan Kushwaha
Hari Mohan Kushwaha
Verified email at iiti.ac.in
Title
Cited by
Cited by
Year
Analysis of gaseous flow in a micropipe with second order velocity slip and temperature jump boundary conditions
HM Kushwaha, SK Sahu
Heat and Mass Transfer 50 (12), 1649-1659, 2014
152014
Microscale flow and heat transfer
A Agrawal, HM Kushwaha, RS Jadhav
Springer International Publishing, 2020
142020
Effects of viscous dissipation and rarefaction on parallel plates with constant heat flux boundary conditions
HM Kushwaha, SK Sahu
Chemical Engineering & Technology 38 (2), 235-245, 2015
82015
Analysis of Gaseous Flow Between Parallel Plates by Second‐Order Velocity Slip and Temperature Jump Boundary Conditions
HM Kushwaha, SK Sahu
Heat Transfer—Asian Research 43 (8), 734-748, 2014
82014
Burnett Equations: Derivation and Analysis
A Agrawal, HM Kushwaha, RS Jadhav
Microscale Flow and Heat Transfer, 125-188, 2020
22020
Analysis of heat transfer in the slip flow region between parallel plates
HM Kushwaha, SK Sahu
Fluid Mechanics and Fluid Power–Contemporary Research, 1331-1339, 2017
22017
Analysis of slip flow heat transfer between two unsymmetrically heated parallel plates with viscous dissipation
HM Kushwaha, SK Sahu
Sādhanā 41 (6), 653-666, 2016
22016
Analysis of slip flow heat transfer between parallel plates with constant heat flux boundary conditions
HM Kushwaha, SK Sahu, AK Verma
Proceedings of the 22nd National and 11th International ISHMT-ASME Heat Mass …, 2013
22013
Comprehensive Analysis of Convective Heat Transfer in Parallel Plate Microchannel with Viscous Dissipation and Constant Heat Flux Boundary Conditions
SKS Hari Mohan Kushwaha
springer, 0
2*
Effect of shear work on the heat transfer characteristics of gaseous flows in microchannels
HM Kushwaha*, PB Raj, SK Sahu
Chemical Engineering & Technology 40 (1), 103-115, 2017
12017
Analysis of slip flow heat transfer between asymmetrically heated parallel plates
HM Kushwaha, SK Sahu
International Journal of Aerospace and Mechanical Engineering 9 (2), 419-425, 2015
12015
Microscale Flows
A Agrawal, HM Kushwaha, RS Jadhav
Microscale Flow and Heat Transfer, 25-80, 2020
2020
Microscale Heat Transfer
A Agrawal, HM Kushwaha, RS Jadhav
Microscale Flow and Heat Transfer, 81-113, 2020
2020
Introduction to Microscale Flows and Mathematical Modelling
A Agrawal, HM Kushwaha, RS Jadhav
Microscale Flow and Heat Transfer, 1-23, 2020
2020
Grad Equations: Derivation and Analysis
A Agrawal, HM Kushwaha, RS Jadhav
Microscale Flow and Heat Transfer, 189-258, 2020
2020
Need for Looking Beyond the Navier–Stokes Equations
A Agrawal, HM Kushwaha, RS Jadhav
Microscale Flow and Heat Transfer, 115-123, 2020
2020
Summary and Future Research Directions
A Agrawal, HM Kushwaha, RS Jadhav
Microscale Flow and Heat Transfer, 313-315, 2020
2020
Overview to Numerical and Experimental Techniques
A Agrawal, HM Kushwaha, RS Jadhav
Microscale Flow and Heat Transfer, 305-312, 2020
2020
Alternate Forms of Burnett and Grad Equations
A Agrawal, HM Kushwaha, RS Jadhav
Microscale Flow and Heat Transfer, 259-304, 2020
2020
ANALYSIS OF SECOND ORDER SLIP FLOW HEAT TRANSFER IN A MICROTUBE
HM Kushwaha, SK Sahu
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