DocumentCode
3217131
Title
An integrated flywheel/machine energy store for road vehicles
Author
Acarnley, P.P. ; Mecrow, B.C. ; Burdess, J.S. ; Fawcett, J.N. ; Dickinson, P.G. ; Kelly, J.G.
Author_Institution
Newcastle upon Tyne Univ., UK
fYear
1997
fDate
35599
Firstpage
42614
Lastpage
42619
Abstract
This paper describes the design and construction of a flywheel energy storage system for application in a road vehicle. Power transfer to and from the storage device is achieved by an integral solid rotor, axial-field brushless DC machine with twin stators carrying a three-phase, six-pole, toroidal airgap winding on a core wound using amorphous steel ribbon. An analysis of the loss mechanisms in the flywheel is presented and compared with experimental results, which show the benefits of operation in partial vacuum or a helium atmosphere. Experimental data on rotor temperature rise highlights the difficulty of removing heat from the rotor
Keywords
electric vehicles; amorphous steel ribbon wound core; axial-field brushless DC machine; electric road vehicle; experimental results; flywheel energy storage system; integral solid rotor; loss mechanisms; rotor heat removal; rotor temperature rise; three-phase; toroidal airgap winding; twin stators;
fLanguage
English
Publisher
iet
Conference_Titel
New Topologies for Permanent Magnet Machines (Digest No: 1997/090), IEE Colloquium on
Conference_Location
London
Type
conf
DOI
10.1049/ic:19970526
Filename
643634
Link To Document