A high-precision discontinuous galerkin artificial viscous shock capture method based on weighted conserved variable steps

A high-precision, artificial technology, used in complex mathematical operations, design optimization/simulation, special data processing applications, etc., it can solve the problem that the artificial viscosity term cannot guarantee the compatibility, the reliability of the calculation results cannot be guaranteed, and the shock wave capture effect appears. Deviation and other issues, to achieve the effect of accurate shock capture, robustness and calculation accuracy, and compatibility.

Active Publication Date: 2021-02-02
CALCULATION AERODYNAMICS INST CHINA AERODYNAMICS RES & DEV CENT
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Problems solved by technology

But when solving viscous equations, the smooth region does not satisfy the divergence of inviscid flux is zero, the addition of the artificial viscous term cannot guarantee the compatibility with the original equation in the smooth region
Compatibility is the basis for accurate solutions. If compatibility cannot be guaranteed, the reliability of the calculation results cannot be guaranteed, and the effect of shock wave capture will be biased.

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  • A high-precision discontinuous galerkin artificial viscous shock capture method based on weighted conserved variable steps
  • A high-precision discontinuous galerkin artificial viscous shock capture method based on weighted conserved variable steps
  • A high-precision discontinuous galerkin artificial viscous shock capture method based on weighted conserved variable steps

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[0018]All the features disclosed in this specification, or all disclosed methods or steps in the process, except for mutually exclusive features and / or steps, can be combined in any manner.

[0019]The present invention is a method for capturing high-precision discontinuous Galerkin artificial viscous shock waves based on weighted conserved variable steps, such asfigure 1 As shown, it mainly includes four parts.

[0020]The first part: Using Euler equation as the control equation, establish the DG high-precision framework represented by basis function, test function and Gauss integration point. It includes the following steps:

[0021]Step 101: Use unstructured grids to mesh the calculation area. For the two-dimensional calculation domain, the mesh types for the division include triangles and quadrilaterals. For the three-dimensional calculation domain, the mesh types include tetrahedron, hexahedron, and triangular prism And pyramid shape.

[0022]Step 102: Construct Euler equation in different...

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Abstract

The invention discloses a high-precision discontinuous Galerkin artificial viscous shock wave capture method based on weighted conservation variable steps. The calculation area is subdivided by unstructured grids. The control equation adopts the Euler equation, and the basis function, test function, The DG high-precision framework represented by Gauss integration points. At the same time, in the equation, a new artificial viscosity item is constructed based on the step of the conserved variable on the element interface, and the convection item of the equation is solved discretely using the HLL format, which ensures robustness and calculation accuracy under the condition of effectively capturing the shock wave; Compared with the previous method, this method only needs one empirical parameter, the actual calculation is simplified, and the step value of the conserved variable is used for calculation. Compared with the previous method, the compatibility can be guaranteed in the smooth area, and the position of the shock wave capture more accurate than previous methods.

Description

Technical field[0001]This article relates to the computational fluid dynamics technology domain, specifically to a high-precision discontinuous Galerkin artificial viscous shock capture method based on weighted conserved variable steps.Background technique[0002]Due to the excellent characteristics of high-precision calculation methods in terms of numerical dissipation and dispersion, they are more suitable for solving multi-scale flow problems such as turbulence and aerodynamic noise. Therefore, high-precision calculation methods are highly valued by more and more CFD scholars and have gained vigorous attention. development of. Among the numerous high-precision calculation methods, the high-order discontinuous Galerkin finite element (DG) method has the characteristics of strong grid adaptability, intuitive and convenient high-order scalability, and better operability of parallel algorithms. The high-order DG method has become one of the most concerned methods among many high-precis...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F17/13G06F30/20
CPCG06F17/13G06F30/20
Inventor 赵辉陈江涛刘伟龚小权
Owner CALCULATION AERODYNAMICS INST CHINA AERODYNAMICS RES & DEV CENT
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