An Adaptive Degree-of-Freedom Electromagnetic-Temperature Multiphysics Coupling Analysis Method

A multi-physics and coupled analysis technology, applied in special data processing applications, complex mathematical operations, design optimization/simulation, etc., can solve problems such as large mapping errors, mapping function selection, etc., to meet the requirements of computing resources, avoid complex operations, The effect of improving computational efficiency

Active Publication Date: 2021-11-12
SHANGHAI UNIV
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Problems solved by technology

The electromagnetic-temperature multi-physics field weak coupling analysis method based on the independent numerical solution of the physical field is the main research and development direction at present. The mapping program realizes the transfer of coupling quantities between physical fields. However, the traditional weak coupling analysis method has problems such as the selection of mapping functions and large mapping errors.

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  • An Adaptive Degree-of-Freedom Electromagnetic-Temperature Multiphysics Coupling Analysis Method
  • An Adaptive Degree-of-Freedom Electromagnetic-Temperature Multiphysics Coupling Analysis Method
  • An Adaptive Degree-of-Freedom Electromagnetic-Temperature Multiphysics Coupling Analysis Method

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Embodiment 1

[0065] On the basis of considering the discretization requirements difference between the electromagnetic field and the temperature field, the present invention proposes an adaptive degree-of-freedom finite element method for the weak coupling analysis of the electromagnetic-temperature multi-physics field based on the unstructured grid, on a set of grids Realize the independent and flexible adjustment of the two degrees of freedom of the physical field, meet the different requirements of the physical field for discreteness with smaller computing resources, and avoid the use of grid mapping functions and the errors that may be introduced; in this invention, the increase of the degree of freedom Realized by mesh refinement and synchronized after the two physics meshes are independently refined; the removal of degrees of freedom is only realized in the finite element space by master-slave technology, and resumed after the solution is completed, thereby avoiding the actual mesh Sp...

Embodiment 2

[0143] refer to Figure 3-6 , is another embodiment of the present invention. In order to verify and explain the technical effect adopted in this method, this embodiment uses the traditional weak coupling analysis method to conduct a comparative test with the method of the present invention, and compares the calculation results by means of scientific demonstration to verify The real effect of this method.

[0144] This embodiment is a transient electromagnetic-temperature coupling problem. The adaptive degree of freedom finite element step calculation is calculated with a time step of 0.5ms to the time node 25ms. During the adaptive calculation process, a grid with 467202 elements is generated. And about 17% of the magnetic field degrees of freedom and 29% of the thermal field degrees of freedom are moved out of the finite element space in each calculation step, such as Figure 4~6 As shown, the Z-direction component of the magnetic flux density obtained at the time node 25ms...

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Abstract

The invention discloses an adaptive electromagnetic-temperature multi-physics field coupling analysis method, which includes: establishing a geometric model of electrical equipment and discrete initial unstructured grids; establishing an electromagnetic-temperature multi-physics field weak coupling numerical model; The electromagnetic-temperature multi-physics field weak coupling numerical model analysis of the grid unit is used to deduce the finite element calculation format; calculate and solve the electromagnetic-temperature multi-physics field in the electrical equipment, and analyze the error of the numerical solution; adjust the degrees of freedom of each physical field, And re-solve according to the adjustment results until the accuracy of the numerical solution meets the requirements, and the analysis is completed. The present invention realizes the independent and flexible adjustment of two degrees of freedom of the physical field on a set of grids, meets the different requirements of the physical field for discreteness with relatively small computing resources, and avoids grid sparseness and subsequent complex operations in actual operations. As well as using the grid mapping function and the errors that may be introduced, the calculation efficiency of electromagnetic-temperature coupling analysis and calculation can be effectively improved.

Description

technical field [0001] The invention relates to the technical field of electrical equipment and simulation calculation, in particular to an adaptive electromagnetic-temperature multi-physical field coupling analysis method with degrees of freedom. Background technique [0002] With the development of electric power, energy and other industries, high-energy density and high-efficiency electrical equipment has become the pursuit goal of many applications. In the corresponding design, it is necessary to comprehensively consider multiple physical fields such as electromagnetic field and temperature field to achieve the ultimate utilization of materials; As an important part of the optimization design, the multi-physics simulation analysis method is the key support to achieve this goal. The electromagnetic-temperature multi-physics field weak coupling analysis method based on the independent numerical solution of the physical field is the main research and development direction a...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F30/23G06F17/15G06F17/16G06F111/10G06F119/08
CPCG06F17/15G06F17/16G06F30/23G06F2111/10G06F2119/08
Inventor 张云鹏王清旋乔振阳邵定国赵剑飞
Owner SHANGHAI UNIV
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