DocumentCode
2757033
Title
A high temperature test program for VRLA batteries
Author
Gerner, Scott D. ; Ross, William J. ; Sirard, Michael L.
Author_Institution
Johnson Controls Battery Group Inc., Milwaukee, WI, USA
fYear
1996
fDate
6-10 Oct 1996
Firstpage
327
Lastpage
333
Abstract
In early 1995, Johnson Controls Battery Group, Inc. (JCBGI) initiated a test program to evaluate the effects of several key design factors on valve regulated lead-acid (VRLA) battery performance in uncontrolled, unregulated, high temperature environments. The program included two separate components, accelerated laboratory and real time field testing. Phoenix, Arizona (USA) was selected as the field test location based on the extreme high temperatures and uncontrolled environmental conditions to which the telecommunication batteries are exposed. With the cooperation of USWEST and NORTEL, six subscriber loop carrier (SLC) cabinets were chosen and equipped with remote monitoring capability. The relationship between the key design parameters, which include positive grid alloy, case wall support and the addition of gel to improve heat transfer capability, and high temperature float life is correlated and discussed. Results from the ongoing field testing of the high heat battery designs are compared. The paper also shows the value of remote battery monitoring
Keywords
electrochemical electrodes; electrochemistry; lead; secondary cells; subscriber loops; telecommunication power supplies; testing; thermal analysis; Pb; Pb-acid valve-regulated secondary batteries; USA; VRLA batteries; case wall support; design factors; gel addition; heat transfer capability; high-temperature float life; high-temperature test programme; positive grid alloy; remote battery monitoring; subscriber loop carrier cabinets; telecommunication batteries; Batteries; Chemicals; Corrosion; Heat transfer; Laboratories; Life estimation; Life testing; Remote monitoring; Temperature control; Thermal management;
fLanguage
English
Publisher
ieee
Conference_Titel
Telecommunications Energy Conference, 1996. INTELEC '96., 18th International
Conference_Location
Boston, MA
Print_ISBN
0-7803-3507-4
Type
conf
DOI
10.1109/INTLEC.1996.573335
Filename
573335
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