Avinash Rathod
January 14, 2025 2025-01-15 5:06Avinash Rathod
Mr. Avinash M. Rathod
Ph.D. Programme in Mechanical Engineering, Specialising in Thermal Engineering
Ph.D. Admission Year: 2021
Guide: Dr. N.P. Gulhane
Contact
Biography
Avinash M. Rathod is a full-time Research Scholar in the Mechanical Engineering Department at VJTI Mumbai since 2021. He holds a Bachelor's degree in Mechanical Engineering (2012) and a Master's degree in Thermal Engineering (2016). His research focuses on heat transfer enhancement under jet impingement over hot surfaces. With over seven years of teaching experience at esteemed institutions like VJTI Mumbai, SPCE Andheri, and BNCOE Pusad, he has taught subjects including Engineering Graphics, Fluid Mechanics, and Heat Transfer.
Academic Information (Degrees/Education)
Master of Engineering in Thermal Engineering
Bachelor of Engineering in Mechanical Engineering
Area of Research
Heat Transfer
Research Interests
Jet Impingement Heat Transfer
Research Grant
Got Fellowship from Mahajyoti (Mahatma Jyotiba Phule Research & Training Institute Nagpur) for Ph. D.
Professional Affiliation
FULL TIME RESEARCH SCHOLAR
Professional Experience
7.5 Years Teaching experience at various renowned institute like VJTI Mumbai, SPCE Andheri and BNCOE Pusad.
Publications
- A. M. Rathod, N. P. Gulhane, and U. M. Siddique, “Heat Transfer Augmentation for Impingement of Steady Air Jet Under Exponential Heat Flux Boundary Condition,” Int. J. Eng., vol. 37, no. 05, pp. 920–930, 2023, doi: 10.5829/ije.2024.37.05b.10.
- A. M. Rathod, N. P. Gulhane, “Heat Transfer Enhancement by Laterally Impinging Air Jet on Semi-Circular Grooved Surface”, JTEN 2025
- A. M. Rathod, N. P. Gulhane , “Numerical Investigation of the Influence of Geometric Parameters on Heat Transfer Enhancement by Air Jet Infringement”, Tayler and Francis Proceeding 2025.
- A. M. Rathod, N. P. Gulhane, “An Experimental Investigation of Impinging air jet on Rectangular Grooved Surface”, Tayler and Francis Proceeding 2025
- An Experimental Investigation on Diesel Engine Performance by the Application of Dual Bio-Diesel Blends. Journal of Mines, Metals and Fuels, 72(8), 829–842. https://doi.org/10.18311/jmmf/2024/35670
