Mathematical and numerical analysis of radiative heat transfer in semi-transparent media

Yao Chuang Han; Yu Feng Nie; Zhan Bin Yuan

doi:10.21136/AM.2019.0276-17

Mathematical and numerical analysis of radiative heat transfer in semi-transparent media

Yao Chuang Han, Yu Feng Nie, Zhan Bin Yuan

School of Mathematics and Statistics

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

This paper is concerned with mathematical and numerical analysis of the system of radiative integral transfer equations. The existence and uniqueness of solution to the integral system is proved by establishing the boundedness of the radiative integral operators and proving the invertibility of the operator matrix associated with the system. A collocation-boundary element method is developed to discretize the differential-integral system. For the non-convex geometries, an element-subdivision algorithm is developed to handle the computation of the integrals containing the visibility factor. An efficient iterative algorithm is proposed to solve the nonlinear discrete system and its convergence is also established. Numerical experiment results are also presented to verify the effectiveness and accuracy of the proposed method and algorithm.

Original language	English
Pages (from-to)	75-100
Number of pages	26
Journal	Applications of Mathematics
Volume	64
Issue number	1
DOIs	https://doi.org/10.21136/AM.2019.0276-17
State	Published - 1 Feb 2019

Keywords

45K05
47G10
65M38
80A20
collocation-boundary element method
existence and uniqueness
iterative nonlinear solver
radiative heat transfer
shadow detection

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10.21136/AM.2019.0276-17

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title = "Mathematical and numerical analysis of radiative heat transfer in semi-transparent media",

abstract = "This paper is concerned with mathematical and numerical analysis of the system of radiative integral transfer equations. The existence and uniqueness of solution to the integral system is proved by establishing the boundedness of the radiative integral operators and proving the invertibility of the operator matrix associated with the system. A collocation-boundary element method is developed to discretize the differential-integral system. For the non-convex geometries, an element-subdivision algorithm is developed to handle the computation of the integrals containing the visibility factor. An efficient iterative algorithm is proposed to solve the nonlinear discrete system and its convergence is also established. Numerical experiment results are also presented to verify the effectiveness and accuracy of the proposed method and algorithm.",

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AU - Han, Yao Chuang

AU - Nie, Yu Feng

AU - Yuan, Zhan Bin

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N2 - This paper is concerned with mathematical and numerical analysis of the system of radiative integral transfer equations. The existence and uniqueness of solution to the integral system is proved by establishing the boundedness of the radiative integral operators and proving the invertibility of the operator matrix associated with the system. A collocation-boundary element method is developed to discretize the differential-integral system. For the non-convex geometries, an element-subdivision algorithm is developed to handle the computation of the integrals containing the visibility factor. An efficient iterative algorithm is proposed to solve the nonlinear discrete system and its convergence is also established. Numerical experiment results are also presented to verify the effectiveness and accuracy of the proposed method and algorithm.

AB - This paper is concerned with mathematical and numerical analysis of the system of radiative integral transfer equations. The existence and uniqueness of solution to the integral system is proved by establishing the boundedness of the radiative integral operators and proving the invertibility of the operator matrix associated with the system. A collocation-boundary element method is developed to discretize the differential-integral system. For the non-convex geometries, an element-subdivision algorithm is developed to handle the computation of the integrals containing the visibility factor. An efficient iterative algorithm is proposed to solve the nonlinear discrete system and its convergence is also established. Numerical experiment results are also presented to verify the effectiveness and accuracy of the proposed method and algorithm.

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KW - 47G10

KW - 65M38

KW - 80A20

KW - collocation-boundary element method

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KW - shadow detection

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Mathematical and numerical analysis of radiative heat transfer in semi-transparent media

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Keywords

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