The impedance of the lithium-thionyl chloride primary cell

Cell design criteria have been established which can result in a safe lithium/thionyl chloride cell. A cell vent, a low area internal anode design, cell balance and composition of the cathode-electrolyte solution have been found to be important factors in the design of a safe cell. In addition to ro

The lithium-thionyl chloride nonaqueous cell system is a recent development. Low atomic weight and high electrode potential make lithium unique as an anode in energy devices. Preparation of the anode, cathode, and the electrolyte is reviewed. The construction of the cell, its performance characteris

The voltage versus temperature response of sixty-four hthmm/thlonyl chloride and hthmm/BrCl-thlonyl chloride cells at seven depths of dmcharge was measured from --10 to 50 °C. The data were then used to determine internal energy and entropy values for the two systems. The internal energy of the thlo

Some of the results presented in this paper were extracted from a report made by the Norwegian Defence Research Establishment (NDRE) as mentioned in Figs. 1 and 8. The reference to the NDRE report, omitted from the reference list, is: N. Sterkersen, G. Nilsson and 8. Hasvold, Some safety aspects of

Heat capacities of twelve different Lithium/BCX (BrCl in thionyl chloride) batteries in sixes AA, C, D, and DD were determined. Procedures and measurement results are reported here. The procedure allowed simple, reproducible and precise determinations of heat capacities of industrially important Lit