Jeylto Alves de Souza Cruvinel; José Roberto Camacho

doi:10.55592/ISE.2023.2713954

DIFFERENTIAL EVOLUTION ALGORITHM APPLIED TO 2D FINITE ELEMENT METHOD FOR AIR CORE REACTOR DESIGN WITH VOLUME MINIMIZATION

Authors

Jeylto Alves de Souza Cruvinel
José Roberto Camacho

DOI:

https://doi.org/10.55592/ISE.2023.2713954

Keywords:

Conductor volume reduction, Differential Evolution, Dry-type air core reactor, Finite Element Method, Optimization

Abstract

This article presents an approach to optimize the volume of air core reactors, specifically 2D electrical inductors, using the Differential Evolution (DE) technique in conjunction with the Finite Element Method (FEM). Minimizing the volume of these reactors is crucial for enhancing efficiency and reducing costs in the electric power industry. This study proposes an effective methodology that enables the optimization of reactor geometry while maintaining desired performance characteristics.

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Published

2023-12-18

How to cite

[1]

Alves de Souza Cruvinel, J. e Roberto Camacho, J. 2023. DIFFERENTIAL EVOLUTION ALGORITHM APPLIED TO 2D FINITE ELEMENT METHOD FOR AIR CORE REACTOR DESIGN WITH VOLUME MINIMIZATION. International Symposium on Energy: Energy Transition, Green Hydrogen and Sustainable Industry. 1, 1 (dez. 2023). DOI:https://doi.org/10.55592/ISE.2023.2713954.

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Issue

v. 1 n. 1 (2023): International Symposium on Energy: Energy Transition, Green Hydrogen and Sustainable Industry - ISE 2023

Section

Articles