Title :
Performance of rechargeable lithium-alloy/metal disulfide pulse power bipolar batteries
Author :
Papadakis, N. ; Barlow, G. ; Bennett, W. ; Shuster, N. ; Specht, S.
Author_Institution :
Westinghounse Eletr. Corp., Chardon, OH, USA
Abstract :
Recent work in developing and testing large-area cells, multicell stacks, and modules is presented. The molten-salt electrolyte, lithium-alloy/metal disulfide technology was scaled up to 200 cm2 cells, and the separator composition was optimized to obtain a final current of less than 4.5 mA/cm2. Performance of single cells and bipolar stacks was found to match or exceed that of the smaller-area cells. Five cell stacks have been tested for up to 27 days at operating temperature with specific energy of 282 kJ/kg for 12 pulses, while performance during the last cycle was still 92% of the best cycle. Completely enclosed modules of 20 bipolar cells have demonstrated equivalent performance for up to 35 days at a temperature including 13 freeze/thaw cycles
Keywords :
lithium alloys; power supplies to apparatus; pulsed power technology; secondary cells; large-area cells; lithium-alloy/metal disulfide technology; molten-salt electrolyte; multicell stacks; pulse power bipolar batteries; testing; Batteries; Electrodes; Impedance; Inorganic materials; Lithium; Particle separators; Pulse power systems; Temperature; Testing; Vehicles;
Conference_Titel :
Power Sources Symposium, 1992., IEEE 35th International
Conference_Location :
Cherry Hill, NJ
Print_ISBN :
0-7803-0552-3
DOI :
10.1109/IPSS.1992.282024
