Title :
Perspective on ultracapacitors for electric vehicles
Author :
Dowgiallo, Edward J. ; Hardin, Jasper E.
Author_Institution :
Idaho Nat. Eng. Lab., Idaho Falls, ID, USA
fDate :
8/1/1995 12:00:00 AM
Abstract :
Recent advances in performance of chemical double layer capacitors (DLC) with aqueous and non-aqueous electrolytes have made it possible to seriously consider them for commercialization. Non-aqueous (organic) carbon based laboratory monopolar devices have recently met key U.S. Department of Energy (DoE) mid-term specifications (> 5 WNkg, >500 W/kg and >100,000 life cycles) for load-leveling electric vehicles batteries. All DLC technologies currently under development by DoE are discussed. Each technology has distinct advantages and none are clear winners at this time. A study has been completed by the General Electric Company on the interface electronics needed to best utilize the energy of capacitors for load-leveling batteries. System costs are presented based on this study, several battery technologies, and capacitor projections
Keywords :
electric vehicles; power capacitors; secondary cells; General Electric Company; aqueous electrolytes; battery technologies; capacitor projections; chemical double layer capacitors; electric vehicles; interface electronics; load-leveling batteries; monopolar devices; nonaqueous electrolytes; ultracapacitors; Batteries; Capacitors; Conducting materials; Costs; Electric vehicles; Laboratories; Life testing; Power engineering and energy; Supercapacitors; US Department of Energy;
Journal_Title :
Aerospace and Electronic Systems Magazine, IEEE
