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The three most widely used numerical methods to solve PDEs are the finite element method (FEM), finite volume methods (FVM) and finite difference methods (FDM), as well other kind of methods called Meshfree methods, which were made to solve problems where the before mentioned methods are limited. The FEM has a prominent position among these methods and especially its exceptionally efficient higher-order version hp-FEM. Other hybrid versions of FEM and Meshfree methods include the generalized finite element method (GFEM), extended finite element method (XFEM), spectral finite element method (SFEM), meshfree finite element method, discontinuous Galerkin finite element method (DGFEM), Element-Free Galerkin Method (EFGM), Interpolating Element-Free Galerkin Method (IEFGM), etc.
 
The three most widely used numerical methods to solve PDEs are the finite element method (FEM), finite volume methods (FVM) and finite difference methods (FDM), as well other kind of methods called Meshfree methods, which were made to solve problems where the before mentioned methods are limited. The FEM has a prominent position among these methods and especially its exceptionally efficient higher-order version hp-FEM. Other hybrid versions of FEM and Meshfree methods include the generalized finite element method (GFEM), extended finite element method (XFEM), spectral finite element method (SFEM), meshfree finite element method, discontinuous Galerkin finite element method (DGFEM), Element-Free Galerkin Method (EFGM), Interpolating Element-Free Galerkin Method (IEFGM), etc.
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求解偏微分方程最常用的三种数值方法是有限元分析法、有限体积法和差分法,以及其他一些称为无网格法的方法。这些方法用于解决前面提到的方法受到的限制。在这些方法中,有限元方法,尤其是高效的高阶有限元方法,占有重要地位。有限元法和无网格法的其他混合形式包括广义有限元分析法(GFEM)、扩展有限元分析法(XFEM)、谱有限元分析法(SFEM)、无网格有限元分析法(DGFEM)、间断有限有限元分析法(DGFEM)、无网格伽辽金法(EFGM)、插值无网格伽辽金法(IEFGM)等。
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求解偏微分方程最常用的三种数值方法是有限元分析法、有限体积法和有限差分法,以及其他一些称为无网格法的方法。这些方法用于解决前面提到的方法受到的限制。在这些方法中,有限元方法,尤其是高效的高阶有限元方法,占有重要地位。有限元法和无网格法的其他混合形式包括广义有限元分析法(GFEM)、扩展有限元分析法(XFEM)、谱有限元分析法(SFEM)、无网格有限元分析法(DGFEM)、间断伽辽金有限元分析法(DGFEM)、无网格伽辽金法(EFGM)、插值无网格伽辽金法(IEFGM)等。
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===Finite difference method===
 
===Finite difference method===
 
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有限差分法
 
{{main|Finite difference method}}
 
{{main|Finite difference method}}
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=== Finite volume method ===
 
=== Finite volume method ===
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有线体积法
    
{{main|Finite volume method}}
 
{{main|Finite volume method}}
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Similar to the finite difference method or finite element method, values are calculated at discrete places on a meshed geometry. "Finite volume" refers to the small volume surrounding each node point on a mesh. In the finite volume method, surface integrals in a partial differential equation that contain a divergence term are converted to volume integrals, using the divergence theorem. These terms are then evaluated as fluxes at the surfaces of each finite volume. Because the flux entering a given volume is identical to that leaving the adjacent volume, these methods conserve mass by design.
 
Similar to the finite difference method or finite element method, values are calculated at discrete places on a meshed geometry. "Finite volume" refers to the small volume surrounding each node point on a mesh. In the finite volume method, surface integrals in a partial differential equation that contain a divergence term are converted to volume integrals, using the divergence theorem. These terms are then evaluated as fluxes at the surfaces of each finite volume. Because the flux entering a given volume is identical to that leaving the adjacent volume, these methods conserve mass by design.
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类似于有限差分法或有限元分析,数值是在网状几何体的离散位置计算的。“有限体积”是指网格上每个节点周围的小体积。在有限体积法中,含有散度项的偏微分方程中的表面积分用高斯散度定理积分转换成体积分。然后将这些项计算为每个有限体积表面的通量。由于进入给定体积的磁通量与离开相邻体积的磁通量相同,这些方法在设计上保持了质量。
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类似于有限差分法或有限元分析,函数值是在网状几何体上的离散位置计算的。“有限体积”是指网格上每个节点周围的小体积。在有限体积法中,偏微分方程中含有散度项的面积分用散度定理积分转换成体积分。然后将这些项用于估算每个有限体积表面上的通量。由于进入给定体积的通量与转移到相邻体积的通量相同,这些方法在设计上保证了质量守恒。
    
==See also==
 
==See also==
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