Reducing the Finite Element Analysis Based Electric Machine Simulation Effort to a Sixth without the Requirement of Specific Mesh Settings

Gereon Goldbeck; Gerd Bramerdorfer

Reducing the Finite Element Analysis Based Electric Machine Simulation Effort to a Sixth without the Requirement of Specific Mesh Settings

Institute of Electrical Drives and Power Electronics

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

Electric machine optimization requires the analysis of hundreds to thousands of design candidates. As usually f inite element analyses (FEA) are applied, this follows high computational cost and a correspondingly long run time. This work is about applying a rotor angle dependent symmetry, such that only 60 electrical degrees are required to be evaluated. By contrast to the state-of-the-art, the presented research studies this approach for general and thus asymmetric mesh comparing the equivalent machine design regions from which the results are combined. By evaluating the achievable accuracy and understanding the potential and limits of the applied approach, this allows for drastically reducing the runtime for future design and optimization problems by approximately a factor of six.

Original language	English
Title of host publication	IECON Chicago, Illinois, November 3-6, 2024
Number of pages	6
Publication status	Published - 2024

Fields of science

202 Electrical Engineering, Electronics, Information Engineering
202009 Electrical drive engineering
202011 Electrical machines
202025 Power electronics
202027 Mechatronics

JKU Focus areas

Digital Transformation
Sustainable Development: Responsible Technologies and Management

Cite this

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title = "Reducing the Finite Element Analysis Based Electric Machine Simulation Effort to a Sixth without the Requirement of Specific Mesh Settings",

abstract = "Electric machine optimization requires the analysis of hundreds to thousands of design candidates. As usually f inite element analyses (FEA) are applied, this follows high computational cost and a correspondingly long run time. This work is about applying a rotor angle dependent symmetry, such that only 60 electrical degrees are required to be evaluated. By contrast to the state-of-the-art, the presented research studies this approach for general and thus asymmetric mesh comparing the equivalent machine design regions from which the results are combined. By evaluating the achievable accuracy and understanding the potential and limits of the applied approach, this allows for drastically reducing the runtime for future design and optimization problems by approximately a factor of six.",

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N2 - Electric machine optimization requires the analysis of hundreds to thousands of design candidates. As usually f inite element analyses (FEA) are applied, this follows high computational cost and a correspondingly long run time. This work is about applying a rotor angle dependent symmetry, such that only 60 electrical degrees are required to be evaluated. By contrast to the state-of-the-art, the presented research studies this approach for general and thus asymmetric mesh comparing the equivalent machine design regions from which the results are combined. By evaluating the achievable accuracy and understanding the potential and limits of the applied approach, this allows for drastically reducing the runtime for future design and optimization problems by approximately a factor of six.

AB - Electric machine optimization requires the analysis of hundreds to thousands of design candidates. As usually f inite element analyses (FEA) are applied, this follows high computational cost and a correspondingly long run time. This work is about applying a rotor angle dependent symmetry, such that only 60 electrical degrees are required to be evaluated. By contrast to the state-of-the-art, the presented research studies this approach for general and thus asymmetric mesh comparing the equivalent machine design regions from which the results are combined. By evaluating the achievable accuracy and understanding the potential and limits of the applied approach, this allows for drastically reducing the runtime for future design and optimization problems by approximately a factor of six.

M3 - Conference proceedings

BT - IECON Chicago, Illinois, November 3-6, 2024

ER -