Increasing the specific energy of deep-cycle VRLA batteries by improving material-utilization efficiencies

Sixteenth Annual Battery Conference on Applications and Advances. Proceedings of the Conference (Cat. No.01TH8533) Pub Date : 2001-01-09 DOI:10.1109/BCAA.2001.905128

J. L. Arias, D. Boughn, J. Rowlette, E. Drake

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引用次数: 1

Abstract

Increasing the utilization efficiency of the active materials offers the greatest opportunity for improving the specific energy of deep-cycle VRLA batteries. Bipolar Power International (BPI) has been developing lead-sulfate-based high-utilization paste formulations for the past decade, as part of its bipolar-battery R&D program, Previous experiments with these pastes on both flat lead sheets (for bipolar plates) and cast grids have shown substantial improvements in material utilization efficiencies over traditional oxide-based pastes, together with good cycling performance. Recently, BPI has begun investigating the performance of its sulfate-based paste in reticulated Pb-metal foams as a means of further increasing utilization efficiency. The results of these preliminary experiments show improvements in positive-material utilization of at least 30% to 44% at the 1/2 -hour to 10-hour rates, respectively, compared to traditional lead-oxide-based pastes on grids.

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通过提高材料利用效率来提高深循环VRLA电池的比能量

提高活性材料的利用率是提高深循环VRLA电池比能量的最大机会。Bipolar Power International (BPI)在过去的十年中一直在开发基于硫酸铅的高利用率浆料配方，作为其双极电池研发计划的一部分，之前在平面铅板(双极板)和铸栅上使用这些浆料的实验表明，与传统的氧化物基浆料相比，这些浆料的材料利用效率有了实质性的提高，同时具有良好的循环性能。最近，BPI开始研究其硫酸盐基浆料在网状铅金属泡沫中的性能，以进一步提高利用效率。这些初步实验的结果表明，与传统的基于氧化铅的电网浆料相比，在1/2小时至10小时的充电速率下，正极材料的利用率分别提高了至少30%至44%。

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Sixteenth Annual Battery Conference on Applications and Advances. Proceedings of the Conference (Cat. No.01TH8533)

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