S. Malipeddi scite author profile

This study is aimed at solving the one-field conservation of mass, momentum, and energy equations for laminar film boiling from vertically suspended smooth surfaces in cryogenic fluids subjected to constant wall heat flux boundary condition. Solutions to the problem of laminar film boiling under constant wall temperature boundary condition have been obtained in the past using analytical and iterative techniques. Here, the governing equations are solved under constant heat flux boundary condition using an analytical method supplemented with curve fitting techniques. The procedure is iterative because it assumes the vapor film thickness to start the calculations and then uses the energy equation at the interface to check the accuracy of this assumption. A computer program was developed to integrate this iterative procedure with a scheme that repeats the calculations at different discrete locations along the heated surface to estimate the laminar film thickness and to generate the velocity and the temperature profiles within the film boundary. The numerical results are compared to the experimental results for a stainless steel plate vertically suspended in liquid nitrogen where the plate is heated by constant current. The numerical predictions are matched with the experimental results by using a calibration parameter that relates various properties of the liquid and the vapor.

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S. Malipeddi

Underhood Thermal Management of Off-Highway Machines Using 1D-Network Simulations

Measurement and Analysis of Underhood Ventilation Air Flow and Temperatures for an Off-Road Machine

Thermal analysis of an off-road machine with a conjoint 3-D CFD and 1-D network simulation package

Numerical Simulation of Laminar Film Boiling Heat Transfer From Vertically Suspended Smooth Surfaces in Cryogenic Fluids Subjected to Constant Wall Heat Flux

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