Title :
A combined ultracapacitor-lead acid battery storage system for mild hybrid electric vehicles
Author :
Stienecker, Adam W. ; Stuart, Thomas ; Ashtiani, Cyrus
Author_Institution :
Dept. of Technol. Studies, Ohio Northern Univ., Ada, OH, USA
Abstract :
Improvements in ultracapacitor technology indicate that the automotive industry should re-examine the energy storage system for hybrid electric vehicles (HEVs). With the combination of an ultracapacitor and a lead acid battery, a system can be implemented in which the lead acid battery can be maintained at 100% state of charge, lengthening the lifetime of the battery. Although performance of the current technology, nickel metal hydride, seems satisfactory, this technology is still very expensive. The ultracapacitor-lead acid battery system described here will provide a cheaper solution if ultracapacitor prices continue to drop as predicted by manufacturers.
Keywords :
automobile industry; battery powered vehicles; hybrid electric vehicles; lead acid batteries; nickel compounds; supercapacitors; Pb; automotive industry; battery storage system; energy storage system; hybrid electric vehicle; lead acid battery; nickel metal hydride; ultracapacitor; Battery powered vehicles; Costs; Energy storage; Hybrid electric vehicles; Nickel; Postal services; Supercapacitors; Switches; Traction motors; Voltage;
Conference_Titel :
Vehicle Power and Propulsion, 2005 IEEE Conference
Print_ISBN :
0-7803-9280-9
DOI :
10.1109/VPPC.2005.1554582
