Hybrid Optimum Design of a Distribution Transformer Based on 2-D FE and a Manufacturer Design Methodology

Author

Arjona, M.A. ; Hernandez, C. ; Cisneros-Gonzalez, M.

Author_Institution

Div. de Estudios de Posgrado e Investig., Inst. Tecnol. de La Laguna, Torreón, Mexico

Volume

46

Issue

8

fYear

2010

Firstpage

2864

Lastpage

2867

Abstract

Integrating finite elements (FEs) into the design procedure of electromagnetic devices has always been a challenge for researchers and design engineering community. This paper presents the application of a hybrid method that involves the application of a conventional design methodology commonly employed by transformer manufacturers and 2-D FEs. The optimization is carried out using a genetic algorithm (GA) which allows finding the global minimum and then a deterministic algorithm is used to find the final solution. The methodology is illustrated in the design of a 1500-kVA, 13.2/0.22-kV, 60-Hz, delta-wye oil-filled distribution transformer. It is demonstrated that computation time can be reduced by using the design proposal and at the same time the FE is kept in the design process.

Keywords

design engineering; electromagnetic devices; finite element analysis; genetic algorithms; power transformers; transformer oil; 2-D FE; apparent power 1500 kVA; delta-wye oil-filled distribution transformer; design engineering community; electromagnetic devices; finite element integration; frequency 60 Hz; genetic algorithm; manufacturer design methodology; voltage 0.22 kV; voltage 13.2 kV; Design engineering; Design methodology; Electromagnetic devices; Finite element methods; Genetic algorithms; Iron; Oil insulation; Process design; Proposals; Pulp manufacturing; Design; finite elements (FEs); genetic algorithms (GAs); transformers;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2010.2044644

Filename

5513030