The work contains the results of the researches carried out by the authors during past years in the field of multiple-criteria optimisation of induction heaters’ design based on numerical coupled electromagnetic and temperature fields’ analysis. The main goal of the studies is the application of different optimisation methods and numerical finite element method (FEM) codes to solve the multi-criteria optimisation problems formulated mathematically in terms of the typical optimisation criteria: maximum temperature uniformity, minimum heating time, maximum energy efficiency and minimum scale formation. Standard genetic algorithm, non-dominated sorting genetic algorithm NSGA-II, migration NSGA algorithm, and alternance method of the optimal control theory are applied as effective optimisation tools in practically oriented applications. The developed optimisation procedures are planned to be used for solving the wide range of real-life problems of the optimal design and control of different induction heating devices and systems.

Three-criteria numerical optimisation as a base for designing induction mass heating

Sieni, E.;Forzan, M.;
2018-01-01

Abstract

The work contains the results of the researches carried out by the authors during past years in the field of multiple-criteria optimisation of induction heaters’ design based on numerical coupled electromagnetic and temperature fields’ analysis. The main goal of the studies is the application of different optimisation methods and numerical finite element method (FEM) codes to solve the multi-criteria optimisation problems formulated mathematically in terms of the typical optimisation criteria: maximum temperature uniformity, minimum heating time, maximum energy efficiency and minimum scale formation. Standard genetic algorithm, non-dominated sorting genetic algorithm NSGA-II, migration NSGA algorithm, and alternance method of the optimal control theory are applied as effective optimisation tools in practically oriented applications. The developed optimisation procedures are planned to be used for solving the wide range of real-life problems of the optimal design and control of different induction heating devices and systems.
2018
http://www.inderscience.com/ijmmp
Alternance method; Design; Genetic algorithm; Induction heating; MNSGA-II; Multi-objective optimisation; NSGA-II; Optimal control theory; Materials Science (all)
Pleshivtseva, Y.; Rapoport, E.; Nacke, B.; Nikanorov, A.; Di Barba, P.; Sieni, E.; Forzan, M.; Lupi, S.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11383/2077299
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