NAME

Ruan Bo

Paper Publications

Element differential method for solving general heat conduction problems
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  • Indexed by:

    期刊论文

  • First Author:

    Gao, Xiao-Wei

  • Correspondence Author:

    Gao, XW (reprint author), Dalian Univ Technol, Sch Aeronaut & Astronaut, State Key Lab Struct Anal Ind Equipment, Dalian 116024, Peoples R China.

  • Co-author:

    Huang, Shi-Zhang,Cui, Miao,Ruan, Bo,Zhu, Qiang-Hua,Yang, Kai,Lv, Jun,Peng, Hai-Feng

  • Date of Publication:

    2017-12-01

  • Journal:

    INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER

  • Included Journals:

    Scopus、SCIE、EI

  • Document Type:

    J

  • Volume:

    115

  • Page Number:

    882-894

  • ISSN No.:

    0017-9310

  • Key Words:

    Element differential method; EDM; Shape functions; Isoparametric elements; Heat conduction

  • Abstract:

    In this paper, a new numerical method, Element Differential Method (EDM), is proposed for solving general heat conduction problems with variable conductivity and heat source subjected to various boundary conditions. The key aspect of this method is based on the direct differentiation of shape functions of isoparametric elements used to characterize the geometry and physical variables. A set of analytical expressions for computing the first and second order partial derivatives of the shape functions with respect to global coordinates are derived, which can be directly applied to governing differential equations and boundary conditions. A new collocation method is proposed to form the system of equations, in which the governing differential equation is collocated at nodes inside elements, and the flux equilibrium equation is collocated at interface nodes between elements and outer surface nodes of the problem. EDM is a strong-form numerical method. It doesn't require a variational principle or a control volume to set up the computational scheme, and no integration is involved. A number of numerical examples of two- and three-dimensional problems are given to demonstrate the correctness and efficiency of the proposed method. (C) 2017 Elsevier Ltd. All rights reserved.

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