DocumentCode
2897120
Title
Increasing the specific energy of deep-cycle VRLA batteries by improving material-utilization efficiencies
Author
Arias, J.L. ; Boughn, D.W. ; Rowlette, J.J. ; Drake, E.D.
Author_Institution
Bipolar Power Int. Inc., Whittier, CA, USA
fYear
2001
fDate
2001
Firstpage
213
Lastpage
217
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 ½-hour to 10-hour rates, respectively, compared to traditional lead-oxide-based pastes on grids
Keywords
electrochemical electrodes; electrochemistry; lead acid batteries; testing; 0.5 to 10 h; Pb; Pb-acid secondary cells; active materials utilisation efficiency; bipolar plates; bipolar-battery R&D program; cast grids; cycling performance; deep-cycle VRLA batteries; electrochemical performance; flat lead sheets; material-utilization efficiencies improvement; paste formulations; positive-material utilization; specific energy improvement; Batteries; Equations; Lead compounds; Microstructure; Research and development; Sheet materials;
fLanguage
English
Publisher
ieee
Conference_Titel
Applications and Advances, 2001. The Sixteenth Annual Battery Conference on
Conference_Location
Long Beach, CA
ISSN
1089-8182
Print_ISBN
0-7803-6545-3
Type
conf
DOI
10.1109/BCAA.2001.905128
Filename
905128
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