AN EFFECTIVE INTEGRATED-RBFN CARTESIAN-GRID DISCRETIZATION FOR THE STREAM FUNCTION_VORTICITY_TEMPERATURE FORMULATION IN NONRECTANGULAR DOMAINS

K. Le-Cao; N. Mai-Duy; T. Tran-Cong

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AN EFFECTIVE INTEGRATED-RBFN CARTESIAN-GRID DISCRETIZATION FOR THE STREAM FUNCTION_VORTICITY_TEMPERATURE FORMULATION IN NONRECTANGULAR DOMAINS

机译：非矩形区域流函数_涡度_温度公式的有效RBFN笛卡尔网格离散化

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This article presents a new numerical collocation procedure, based on Cartesian grids and one-dimensional integrated radial-basis-function networks (I D-IRBFNs), for the simu_lation of natural convection defined in two-dimensional, multiply connected domains and governed by the stream function_vorticity-temperature formulation. Special emphasis is placed on the handling of vorticity values at boundary points that do not coincide with grid nodes. A suitable formula for computing vorticity boundary conditions, which is based on the approximations with respect to one coordinate direction only, is proposed. Normal derivative boundary conditions for the stream function are forced to he satisfied identically. Several test problems, including natural convection in the annulus between square and circular cylinders, are considered to investigate the accuracy of the proposed technique.

机译：本文提出了一种基于笛卡尔网格和一维集成径向基函数网络（I D-IRBFN）的新数值配置程序，用于模拟二维，多重连接域中的自然对流并受其控制。流函数_涡度-温度公式。特别强调在与网格节点不一致的边界点处的涡度值的处理。提出了一种合适的计算涡度边界条件的公式，该公式仅基于相对于一个坐标方向的近似值。流函数的正态导数边界条件被迫完全满足。考虑了几个测试问题，包括方形和圆形圆柱体之间的环空自然对流，以研究所提出技术的准确性。

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来源
《Numerical Heat Transfer, Part B. Fundamentals: An International Journal of Computation and Methodology》 |2009年第6期|共23页
作者
K. Le-Cao; N. Mai-Duy; T. Tran-Cong;
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正文语种 eng
中图分类 725B0059-B;
关键词
numerical collocation procedure; radial-basis-function; boundary conditions;

机译：数值配置程序;径向基函数;边界条件;

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1. AN EFFECTIVE INTEGRATED-RBFN CARTESIAN-GRID DISCRETIZATION FOR THE STREAM FUNCTION_VORTICITY_TEMPERATURE FORMULATION IN NONRECTANGULAR DOMAINS [J] . K. Le-Cao, N. Mai-Duy, T. Tran-Cong Numerical Heat Transfer, Part B. Fundamentals: An International Journal of Computation and Methodology . 2009,第5a6期

机译：非矩形区域流函数_涡度_温度公式的有效RBFN笛卡尔网格离散化
2. Analysis of mixed finite element method (MFEM) for solving the generalized fractional reaction-diffusion equation on nonrectangular domains [J] . Abbaszadeh Mostafa, Dehghan Mehdi Computers & mathematics with applications . 2019,第5期

机译：非矩形域上广义分数阶反应扩散方程的混合有限元分析
3. Analysis of mixed finite element method (MFEM) for solving the generalized fractional reaction-diffusion equation on nonrectangular domains [J] . Abbaszadeh Mostafa, Dehghan Mehdi Computers & mathematics with applications . 2019,第5期

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4. The Study Of Convergence Of Parabolic Sweeps Method In Domains Of Nonrectangular Shape [C] . Gadiyak, G.V., Ginkin, . 2001

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5. A discrete time-domain electromagnetics formulation with minimized numerical artifacts [D] . Panaretos, Anastasios 2007

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6. Discrete and continuous mechanisms of temporal selection in rapid visual streams [O] . Sébastien Marti, Stanislas Dehaene -1

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7. An effective integrated-RBFN Cartesian-grid discretization for the stream function-vorticity-temperature formulation in nonrectangular domains [O] . Le-Cao K., Mai-Duy N., Tran-Cong T. 2009

机译：非矩形域中流函数-涡度-温度公式的有效集成RBFN笛卡尔网格离散化
8. Application of spatial and angular domain based parallelism to a discrete ordinates formulation with unstructured spatial discretization [R] . Burns, S. P. 1997

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AN EFFECTIVE INTEGRATED-RBFN CARTESIAN-GRID DISCRETIZATION FOR THE STREAM FUNCTION_VORTICITY_TEMPERATURE FORMULATION IN NONRECTANGULAR DOMAINS

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