Active lithium thionyl chloride batteries for high rate pulse applications

Author

Bolster, Mary Elizabeth ; Staniewicz, R.J.

Author_Institution

SAFT R&D Center, Cockeysville, MD, USA

fYear

1992

Firstpage

72

Lastpage

76

Abstract

The development of two Li/SOCl₂ pulse batteries is presented. The BA-6516 battery contains eight small 2/3 A cells connected in series. It was required to operate under a 1.5 A pulse load. The BA-6699 battery is similarly composed of eight large DD cells. The pulse load on this battery was 20 A with a 3.2 A background. The major design features of the batteries are described. The performance was optimized through selection of cell surface areas, internal construction, and component substrates. High surface area carbons produced superior cold temperature load voltage. An ethylene tetrafluoroethylene (ETFE) separator was used exclusively in the cells to ensure integrity of the spirally wound element and allow increased cell surface area. The advantages and disadvantages to the practical use of ETFE are discussed. The performance results and safety relative to vent selection are considered

Keywords

electrochemical electrodes; electrochemistry; lithium; load (electric); primary cells; pulsed power technology; safety; sulphur compounds; 0.666 A; 1.5 A; 20 A; 3.2 A; BA-6516; BA-6699; C; ETFE; Li-SOCl₂ primary cells; component substrates; design; development; electrochemistry; electrodes; ethylene tetrafluoroethylene; internal construction; load; performance; pulse batteries; pulse power technology; safety; separator; spirally wound; surface areas; vent selection; Batteries; Heating; Lithium compounds; Nickel; Research and development; Strips; Temperature; Vents; Voltage; Wounds;

fLanguage

English

Publisher

ieee

Conference_Titel

Power Sources Symposium, 1992., IEEE 35th International

Conference_Location

Cherry Hill, NJ

Print_ISBN

0-7803-0552-3

Type

conf

DOI

10.1109/IPSS.1992.282051

Filename

282051