Publication detail
Levitation electromagnet
PATOČKA, M. HUTÁK, P.
Czech title
Levitační elektromagnet
English title
Levitation electromagnet
Type
conference paper
Language
en
Original abstract
The paper deals with the engineer design of the levitation magnet for transport systems or magnetic bearings. The optimal solution for the minimum whole volume of iron and copper is showed. The optimisation has been based on the idea, that the all linear dimensions of the magnet are expressed as multiples of the longitude module. It allows to compare the technical utility features of the different dimension magnets with different modules.
Czech abstract
V článku je popsán inženýrský návrh levitačního elektromagnetu. Návrhový algoritmus je optimální z hlediska minimalizace objemu mědi a železa magnetu. Optimalizace je založena na myšlence, že všechny lineární rozměry magnetu jsou vyjádřeny jako násobky základního délkového modulu. To umožňuje porovnávat užitné vlastnosti různě velkých magnetů.
English abstract
The paper deals with the engineer design of the levitation magnet for transport systems or magnetic bearings. The optimal solution for the minimum whole volume of iron and copper is showed. The optimisation has been based on the idea, that the all linear dimensions of the magnet are expressed as multiples of the longitude module. It allows to compare the technical utility features of the different dimension magnets with different modules.
Keywords in English
levitation magnet,transport systems,magnetic bearings,optimal solution
RIV year
2003
Released
01.01.2003
Publisher
Akademie věd České republiky
Location
Praha
ISBN
80-86246-18-3
Book
National conference with international participation Engineering mechanics
Pages count
5
BIBTEX
@inproceedings{BUT9327,
author="Miroslav {Patočka} and Petr {Huták},
title="Levitation electromagnet",
booktitle="National conference with international participation Engineering mechanics",
year="2003",
month="January",
publisher="Akademie věd České republiky",
address="Praha",
isbn="80-86246-18-3"
}