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contributor authorWei An
contributor authorTong Zhu
contributor authorNaiPing Gao
date accessioned2017-05-09T00:52:23Z
date available2017-05-09T00:52:23Z
date copyrightApril, 2012
date issued2012
identifier issn0022-1481
identifier otherJHTRAO-27938#044502_1.pdf
identifier urihttp://yetl.yabesh.ir/yetl/handle/yetl/149505
description abstractA high reflectivity of walls often leads to prohibitive computation time in the numerical simulation of radiative heat transfer. Such problem becomes very serious in many practical applications, for example, metal processing in high-temperature environment. The present work proposes a modified diffusion synthetic acceleration model to improve the convergence of radiative transfer calculation in participating media with diffusely reflecting boundary. This model adopts the P1 diffusion approximation to rectify the scattering source term of radiative transfer equation and the reflection term of the boundary condition. The corrected formulation for boundary condition is deduced and the algorithm is realized by finite element method. The accuracy of present model is verified by comparing the results with those of Monte Carlo method and finite element method without any accelerative technique. The effects of emissivity of walls and optical thickness on the convergence are investigated. The results indicate that the accuracy of present model is reliable and its accelerative effect is more obvious for the optically thick and scattering dominated media with intensive diffusely reflecting walls.
publisherThe American Society of Mechanical Engineers (ASME)
titleAccelerate Iteration of Least-Squares Finite Element Method for Radiative Heat Transfer in Participating Media With Diffusely Reflecting Walls
typeJournal Paper
journal volume134
journal issue4
journal titleJournal of Heat Transfer
identifier doi10.1115/1.4005165
journal fristpage44502
identifier eissn1528-8943
keywordsEmissivity
keywordsRadiation scattering
keywordsFinite element methods
keywordsElectromagnetic scattering
keywordsRadiative heat transfer
keywordsComputation
keywordsFinite element model
keywordsThickness
keywordsBoundary-value problems
keywordsMonte Carlo methods
keywordsDiffusion (Physics)
keywordsReflection
keywordsEquations AND Approximation
treeJournal of Heat Transfer:;2012:;volume( 134 ):;issue: 004
contenttypeFulltext


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