The influence of pulsed discharge on the capacity of lead/acid batteries

A theoretical expression has been derived for the dependence of the discharge capacity, C, of the positive plate of the lead-acid battery, on the temperature, T, in the form dlnC/dT = (k -l)(dlnK /dT + l/T), where k is the coefficient of Peukert's equation and K is the specific conductivity of the

Calcmm sulphate added to the posltlve matenal of flat or tubular plates of lead/acid battenes smcantly unproves performance at high rates of discharge, particularly at low temperatures Calcmm sulphate 1s added to the paste nux (flat plates) or blended wth the precursor oxide (tubular plates) Cycle l

The effect of pulsed current discharge on lead-acid cell capacity has been examined in the light of the diffusive mass transport limitation of electrolyte to the reaction interface. It is shown that the capacity of a cell on pulsed discharge is expected to be identical with the capacity of the same

A theoretical analysis of the electrolyte concentration distribution and current distribution in the porous lead dioxide electrode has been made by application of Fick's second law which was combined with approximate mass balances. The macrohomogeneous model for porous electrodes was used. The param