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cell. These losses must be minimized to optimize the electrochemical energy effi ciency of the battery. Consequently, as cell operation becomes electrochemically more efficient, the tendency will be to increase the variation in current density. CALCULATION OF ZINC-DEPOSIT DISTRIBUTION The current-density distribution equation provides a continuous analysis of current density across the width of the cell. By applying Faraday's law, an instantaneous zinc-deposit weight distribution may be found directly from the current-density distribution. However, the magnitude of the inter-electrode gap will change as COMPOUND RESISTIVITY—GAP PRODUCT thickness product, Pt ohm cm2 Figure 31-11. Active cell current density adjacent to the chlorine electrode bus as a function of the product of compound resistivity and the inter electrode gap. 31-19PDF Image | Development of the Zinc-Chlorine Battery for Utility
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