Arvind Pattamatta, Ph.D.
Affiliations: | 2009 | Mechanical and Aerospace Engineering | State University of New York, Buffalo, Buffalo, NY, United States |
Area:
Mechanical Engineering, Aerospace Engineering, Electronics and Electrical EngineeringGoogle:
"Arvind Pattamatta"Parents
Sign in to add mentorCyrus K. Madnia | grad student | 2009 | SUNY Buffalo | |
(Modeling energy transport in nanostructures.) |
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Publications
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Godi SC, Abraham S, Pattamatta A, et al. (2020) Evaluation of candidate strategies for the estimation of local heat transfer coefficient from wall jets Experimental Heat Transfer. 33: 40-63 |
Godi SC, Pattamatta A, Balaji C. (2020) Heat transfer from a single and row of three dimensional wall jets - A combined experimental and numerical study International Journal of Heat and Mass Transfer. 159: 119801 |
Dixit DD, Pattamatta A. (2020) Effect of uniform external magnetic-field on natural convection heat transfer in a cubical cavity filled with magnetic nano-dispersion International Journal of Heat and Mass Transfer. 146: 118828 |
Guggilla G, Narayanaswamy R, Pattamatta A. (2020) An experimental investigation into the spread and heat transfer dynamics of a train of two concentric impinging droplets over a heated surface Experimental Thermal and Fluid Science. 110: 109916 |
Pattamatta A, Maiya MP. (2019) Preface: Special Issue Of Ishmt-Astfe Heat And Mass Transfer Conference 2017 Journal of Enhanced Heat Transfer. 26 |
Godi SC, Pattamatta A, Balaji C. (2019) Effect of the Inlet Geometry on the Flow and Heat Transfer Characteristics of Three-Dimensional Wall Jets Journal of Heat Transfer-Transactions of the Asme. 141 |
Akash AR, Abraham S, Pattamatta A, et al. (2019) Experimental Assessment of the Thermo-Hydraulic Performance of Automobile Radiator with Metallic and Nonmetallic Nanofluids Heat Transfer Engineering. 41: 235-251 |
Dixit DD, Pattamatta A. (2019) Natural convection heat transfer in a cavity filled with electrically conducting nano-particle suspension in the presence of magnetic field Physics of Fluids. 31: 23302 |
Hadad Y, Ramakrishnan B, Pejman R, et al. (2019) Three-objective shape optimization and parametric study of a micro-channel heat sink with discrete non-uniform heat flux boundary conditions Applied Thermal Engineering. 150: 720-737 |
Takawale A, Abraham S, Sielaff A, et al. (2019) A comparative study of flow regimes and thermal performance between flat plate pulsating heat pipe and capillary tube pulsating heat pipe Applied Thermal Engineering. 149: 613-624 |