Title :
Numerical simulation of turbulent natural convection in electronic enclosure
Author :
Sheremet, Mikhail A.
Author_Institution :
Fac. of Mech. & Math., Tomsk State Univ., Tomsk, Russia
fDate :
June 30 2010-July 4 2010
Abstract :
Turbulent natural convection in an electronic enclosure having finite thickness heat-conducting walls at local heating at the bottom of the cavity provided that convective- radiative heat exchange with environment on one of the external borders has been numerically studied. Mathematical simulation has been carried out in terms of the dimensionless Reynolds averaged Navier Stokes (RANS) equations in stream function - vorticity formulations. The formulation comprises the standard two equation k-ε turbulence model with wall functions, along with the Boussinesq approximation, for the flow and heat transfer. The Grashof number based on the length of the gas cavity was varied from 107 to 109. Detailed results including stream lines, temperature profiles and correlation for the average Nusselt number in terms of Grashof number have been obtained.
Keywords :
Navier-Stokes equations; convection; heat radiation; turbulence; vortices; Boussinesq approximation; Grashof number; Reynolds averaged Navier Stokes equations; average Nusselt number; convective-radiative heat exchange; electronic enclosure; gas cavity; heat transfer; heat-conducting walls; k-ε turbulence model; stream function; stream lines; temperature profiles; turbulent natural convection; vorticity formulation; Heating; Logic gates; Numerical simulation; conjugate heat transfer; turbulent natural convection;
Conference_Titel :
Micro/Nanotechnologies and Electron Devices (EDM), 2010 International Conference and Seminar on
Conference_Location :
Novosibirsk
Print_ISBN :
978-1-4244-6626-9
DOI :
10.1109/EDM.2010.5568836
