Zinc-chloride battery development project

The objective of this project was to develop the core technology for a bipolar zinc/bromine flow battery that could eventually be adapted to various advanced battery applications. System scale-up to 20 kW h for 50 cycles was the demonstration target. Exxon Research and Engineering has been developi

The objective of this project was to develop the core technology for a bipolar zinc/bromine flow battery that could eventually be adapted to various advanced battery applications. System scale-up to 20 kW h for 50 cycles was the demonstration target. Exxon Research and Engineering has been developi

safer, and/or lowercost batteries. Research on zinc/bromine, calcium/metal sulfide, and iron/chromium (redox) cells will progress toward the technology transfer stage, and exploratory work on such systems as solid electrolyte, organic electrolyte, and molten-salt cells will be pursued. Engineering

Lithium-thionyl chloride (Li-SOC12) primary cells and batteries have received considerable attention over the last several years because of their high theoretical specific energy and energy density. The development of the technology has been supported by the NASA Hq., Office of Aeronautics and Space

A 30 V lithium/thionyl chloride battery with 320 Ah capacity capable of operating at currents of 14 to 75 A has been developed and tested over a temperature range from 15 to 71 °C. The 81 lb battery consists of nine series connected cylindrical cells in a three-by-three arrangement within an aluminu