3D Radiative Transfer Equation Coupled with Heat Conduction Equation with Realistic Boundary Conditions Applied on Complex Geometries

D. Le Hardy; Y. Favennec; G. Domingues; B. Rousseau

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3D Radiative Transfer Equation Coupled with Heat Conduction Equation with Realistic Boundary Conditions Applied on Complex Geometries

机译：复杂几何条件下具有真实边界条件的3D辐射传递方程与热传导方程的耦合

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This paper presents the solution of coupled radiative transfer equation with heat conduction equation in complex three-dimensional geometries. Due to very different time scales for both physics, the radiative problem is considered steady-state but solved at each time iteration of the transient conduction problem. The discrete ordinate method along with the decentered streamline-upwind Petrov-Galerkin method is developed. Since specular reflection is considered on borders, a very accurate algorithm has been developed for calculation of partition ratio coefficients of incident solid angles to the several reflected solid angles. The developed algorithms are tested on a paraboloid-shaped geometry used for example on concentrated solar power technologies.

机译：本文提出了复杂的三维几何中耦合辐射传递方程与热传导方程的解。由于两种物理学的时间尺度都非常不同，因此辐射问题被认为是稳态的，但在瞬态传导问题的每次迭代中都得到了解决。提出了离散纵坐标法和偏心流线-上风彼得罗夫-加勒金法。由于在边界上考虑了镜面反射，因此开发了一种非常精确的算法来计算入射立体角与多个反射立体角的分配比系数。所开发的算法在抛物面形状的几何体上进行了测试，例如用于集中式太阳能技术。

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《Journal of Applied Mathematics and Physics》 |2016年第8期|共6页
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D. Le Hardy; Y. Favennec; G. Domingues; B. Rousseau;
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2. A Multiscale Method for Coupled Steady-State Heat Conduction and Radiative Transfer Equations in Composite Materials [J] . Zi-Xiang Tong, Ming-Jia Li, Yi-Si Yu, Journal of Heat Transfer . 2021,第8期

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3. A numerical technique for solving the coupled radiative transfer and heat equations in a random medium with plane geometry [J] . Miller SD. Waves in Random Media . 1998,第3期

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5. Transformed integral equations of radiative transfer and combined convection-radiation heat transfer enhancement with porous insert. [D] . Chen, Xuelei. 2003

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3D Radiative Transfer Equation Coupled with Heat Conduction Equation with Realistic Boundary Conditions Applied on Complex Geometries

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