An unstructured finite volume scheme is applied to the solution of sub-micron heat conduction problems. The phonon Boltzmann transport equation (BTE) in the relaxation time approximation is considered. The similarity between the radiative transfer equation (RTE) and the BTE is exploited in developing a finite volume scheme for the BTE. The spatial domain is divided into arbitrary unstructured polyhedra, the angular domain into control angles, and the frequency domain into frequency bands, and conservation equations for phonon energy are written. The unsteady wave propagation term, not usually present in thermal radiation problems, is differentiated using a fully implicit scheme. A sequential multigrid scheme is applied to solve the nominally linear set. Isotropic scattering due to a variety of mechanisms such as impurity and Umklapp scattering is considered. The numerical scheme is applied to a variety of sub-micron conduction problems, both unsteady and steady. Favorable comparison is found with the published literature and with exact solutions.
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Computation of Sub-Micron Thermal Transport Using an Unstructured Finite Volume Method
J. Y. Murthy,
J. Y. Murthy
School of Mechanical Engineering, Purdue University, West Lafayette, IN 47907
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S. R. Mathur
S. R. Mathur
Fluent Inc., 10 Cavendish Court, Lebanon, NH 03766
Search for other works by this author on:
J. Y. Murthy
School of Mechanical Engineering, Purdue University, West Lafayette, IN 47907
S. R. Mathur
Fluent Inc., 10 Cavendish Court, Lebanon, NH 03766
Contributed by the Heat Transfer Division for publication in the JOURNAL OF HEAT TRANSFER. Manuscript received by the Heat Transfer Division December 14, 2001; revision received July 22, 2002. Associate Editor: D. Poulikakos.
J. Heat Transfer. Dec 2002, 124(6): 1176-1181 (6 pages)
Published Online: December 3, 2002
Article history
Received:
December 14, 2001
Revised:
July 22, 2002
Online:
December 3, 2002
Citation
Murthy, J. Y., and Mathur, S. R. (December 3, 2002). "Computation of Sub-Micron Thermal Transport Using an Unstructured Finite Volume Method ." ASME. J. Heat Transfer. December 2002; 124(6): 1176–1181. https://doi.org/10.1115/1.1518495
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