Proceedings of the ASME Heat Transfer Division, Volume 1American Society of Mechanical Engineers, 2001 - Combustion |
Contents
Numerical Simulations of Resonant Heat Transfer Augmentation at Low Reynolds | 3 |
Combustor Geometry | 23 |
on a Solid Surface | 33 |
Copyright | |
18 other sections not shown
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Common terms and phrases
2001 ASME International ASME International Mechanical average boiling boundary conditions boundary layer calculated centerline channel computational constant contact angle contact line convective heat transfer coordinate correlation critical heat flux density diameter diffusion dimensional dimensionless domain downstream droplet DSMC duct effect enclosure energy equation experimental Figure flow field fluid forcing friction factor function gradient Grashof Grashof number grid heat conduction heat exchanger heat flux heat transfer coefficient heat transfer enhancement HTD-Vol increase interface investigated isothermal Journal of Heat laminar laminar flow laser length liquid Mass Transfer measured Mechanical Engineering Congress method microchannels natural convection nozzle Nusselt number obtained outer-jet parameter plate Prandtl number predicted present study pressure Rayleigh number region Reynolds number scalar shown in Fig shows simulation solution streamwise surface wettability thermal conductivity tube turbulent vapor velocity vertical viscosity vortex vortices wall temperature winglets