Finite element modelling of geometries with large dimensional differences between adjacent sub-domains or domains which have poor aspect ratios can impose significant demands on meshing algorithms and computational resources. A simple sub-domain scaling technique for electromagnetic analysis of electrical machines by finite element analysis is proposed. The technique can be used to improve aspect ratios and is useful in modelling electrical machines with small air gap lengths
This work studies the problem of numerical modeling of electromagnetic phenomena in electrical machi...
A method to reduce the order of finite element based models of electromechanical components is prese...
The field calculus for electrical machines (EMs) is realized solving subdomain problems. Most often,...
International audienceThis paper reviews the recent developments of semi-analytical subdomains model...
Complex multi-scale Finite Element (FE) analyses always involve high number of elements and therefor...
Summarization: Design and operation analysis of electrical machines can be performed by using either...
peer reviewedRepetitive finite element (FE) computations are needed when studying variations of geom...
Finite element analysis of electrical machines withmulti-conductor windings can be computationally c...
The Finite Element Method (FEM) in recent years has been found as very attractive for electromagneti...
© 2015 IEEE. This paper presents the fundamental principle of the extended finite element method (XF...
Finite element analysis of electrical machines withmulti-conductor windings can be computationally c...
In this paper a scaling approach for the solution of 2D FE models of electric machines is proposed. ...
When two or more electrical machines are electrically and mechanically interconnected, the implemen...
In the design of electromagnetic devices several numerical and (semi-)analytical techniques can be u...
In this study, six different modelling methods for permanent magnet electric machines are compared i...
This work studies the problem of numerical modeling of electromagnetic phenomena in electrical machi...
A method to reduce the order of finite element based models of electromechanical components is prese...
The field calculus for electrical machines (EMs) is realized solving subdomain problems. Most often,...
International audienceThis paper reviews the recent developments of semi-analytical subdomains model...
Complex multi-scale Finite Element (FE) analyses always involve high number of elements and therefor...
Summarization: Design and operation analysis of electrical machines can be performed by using either...
peer reviewedRepetitive finite element (FE) computations are needed when studying variations of geom...
Finite element analysis of electrical machines withmulti-conductor windings can be computationally c...
The Finite Element Method (FEM) in recent years has been found as very attractive for electromagneti...
© 2015 IEEE. This paper presents the fundamental principle of the extended finite element method (XF...
Finite element analysis of electrical machines withmulti-conductor windings can be computationally c...
In this paper a scaling approach for the solution of 2D FE models of electric machines is proposed. ...
When two or more electrical machines are electrically and mechanically interconnected, the implemen...
In the design of electromagnetic devices several numerical and (semi-)analytical techniques can be u...
In this study, six different modelling methods for permanent magnet electric machines are compared i...
This work studies the problem of numerical modeling of electromagnetic phenomena in electrical machi...
A method to reduce the order of finite element based models of electromechanical components is prese...
The field calculus for electrical machines (EMs) is realized solving subdomain problems. Most often,...