Title :
Power Electronic Enabled Active Hybrid Energy Storage System and its Economic Viability
Author :
Miller, John M. ; Deshpande, Uday ; Dougherty, Thomas J. ; Bohn, Theodore
Author_Institution :
Maxwell Technol., Inc., San Diego, CA
Abstract :
This paper examines the technology and value proposition for the active combination of the power dense ultracapacitor with an energy optimized lithium-ion battery. Aspects of the respective technologies that can be altered for the benefit of the active parallel energy storage system are noted. Energy management control strategies are investigated that show promise for dramatic reduction in lithium-ion peak and rms currents leading to improvements in regenerative energy storage system life, efficiency, thermal performance and packaging. A new cost reduced ultracapacitor cell design is introduced and a value proposition is made showing that energy optimized lithium can "pay" for the dc-dc converter and ultracapacitors now.
Keywords :
energy storage; hybrid power systems; power system economics; secondary cells; supercapacitors; dc-dc converter; dramatic reduction; economic viability; energy management control strategies; lithium ion battery; power dense ultracapacitor; power electronic enabled active hybrid energy storage system; thermal performance; ultracapacitor cell design; Batteries; Control systems; Electronic packaging thermal management; Energy management; Energy storage; Power electronics; Power generation economics; Power system economics; Supercapacitors; Thermal management;
Conference_Titel :
Applied Power Electronics Conference and Exposition, 2009. APEC 2009. Twenty-Fourth Annual IEEE
Conference_Location :
Washington, DC
Print_ISBN :
978-1-4244-2811-3
Electronic_ISBN :
1048-2334
DOI :
10.1109/APEC.2009.4802654
