Cochin University of Science and Technology
Kochi - 682022,
Kerala, India
E-mail-
pjjoshy@cusat.ac.in
BRIEF BIO
Mr. Joshy P.J. received his Bachelor’s Degree in Mechanical Engineering from the Government Engineering College, Trichur, Master of Science by Research from the Indian Institute of Technology, Madras, and pursuing Doctoral degree from the Indian Institute of Technology, Madras. He is currently working as Associate Professor in Mechanical Engineering at the Cochin University of Science and Technology, Cochin. He has more than 25 years of teaching experience. His areas of interest are incompressible flows and natural convection boundary layer flows.
RESEARCH INTERESTS
Experimental and computational Fluid Dynamics, Incompressible Flows and Natural convection boundary layer flows
Plume structures in natural convection with transpiration. (In print), Journal of Flow Visualization and Image Processing, 2022
Numerical analysis of pool-boiling of nanofluids for high heat dissipation applications. (In print), IEEE transactions on components, packaging and manufacturing Technology, 2022
Numerical analysis on air core vortex formation in inclined cylindrical tanks (accepted), Fluid Dynamics, 2022
Rankine Vortex suppression in tanks with conical base: A numerical investigation, Journal of Spacecraft and Rockets, 2020
Scaling in concentration driven convection boundary layers with transpiration, Journal of Fluid Mechanics, 2020
Numerical Analysis of Plume Structures of Fluids on a Horizontal Heated Plate, ASME,Journal of Heat Transfer, 2019
Elimination of Air- core vortex in a cylindrical tank by dual ports, Journal of aerospace sciences and technologies., 2018
Study of flow developments around an airfoil with a range of backward steps, , 2018
Numerical investigations of air core vortex formation in a rotating dual port cylindrical tank, International Journal of Applied Engineering Research, 2017
Influence of Vibration in the horizontal Plane on Discharge of Liquid from a Cylindrical Tank, Indian Journal of Engineering & Material Sciences, 1997
An investigation of air-core vortex formation in hemispherical tanks, International conference in Fluid, Thermal and Energy systems, 2022
Vortex formation during liquid draining from a cylindrical tank with conical bottom- A numerical study, Advances in Mechanical Processing and Design 2021, 2021
Aerodynamic analysis of the wing of unnamed aerial vehicle with and without morphing, International conference on energy, environment, materials, and safety(ICEEMS'19), 2019
Determination of linear hydrodynamic coefficients of remotely operated underwater vehicle for safe deep sea explorations, proceedings of the international conference on safety and fire engineering, 2017
Elimination of Air- core vortex by dual ports for safe propulsion of rockets and spacecraft, proceedings of the international conference on safety and fire engineering, 2017
flow structure analysis around a square cylinder with an off -Centre splitter plate, proceedings of the international conference on emerging trends in mechanical engineering, ICETiME'15, 2015
modelling of indirect natural convection on a two dimensional domain, proceedings of the international conference on emerging trends in mechanical engineering, ICETiME'15, 2015
Vortex Formation During Draining :Effect of Relative Port Ratio, International conference on flow dynamics, Tohuku University, Japan, 2013
Increasing the efficiency of coal fired boilers, International Congress on Boiler Engineering and Technology, 2004
Simulation of road vehicle tracking system, proceedings of the first CUSAT National conference on Recent advances in civil engineering , 2004
.JPG)