Numerical solution of forward and inverse problems of heat conduction in multi-layered media

Numerical solution of forward and inverse problems of heat conduction in multi-layered media

The primary objective of this paper was to delve into the exploration of numerical methods for solving forward and inverse problems related to heat conduction in one-dimensional multi-layered media. To address the non-differentiability at multilayer medium interfaces that prevents direct discretizat...

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Bibliographic Details
Main Authors: Yu Xu, Youjun Deng, Dong Wei
Format: Article
Language:English
Published: AIMS Press 2025-03-01
Series:AIMS Mathematics
Subjects:
heat conduction
multi-layered media
forward and inverse problems
finite difference method
iterative regularization
Online Access:https://www.aimspress.com/article/doi/10.3934/math.2025280
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Summary:The primary objective of this paper was to delve into the exploration of numerical methods for solving forward and inverse problems related to heat conduction in one-dimensional multi-layered media. To address the non-differentiability at multilayer medium interfaces that prevents direct discretization, this paper employed the finite volume method to construct finite difference schemes. Compared with traditional difference methods, the proposed method improved accuracy by considering coefficient variations near interfaces. For the ill-posed initial value problem in inverse heat conduction of multilayer media, we transformed the inverse problem into an operator equation using the finite volume method for forward problems. The Landweber iterative regularization method combined with the Morozov discrepancy principle was then applied to obtain iterative sequences. Numerical simulations demonstrate the algorithm's superior accuracy and noise resistance compared with conventional methods through comparative studies and sensitivity analyses.
ISSN:2473-6988

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