The high rate charge behavior of 6 V 155 A h lead acid monoblocs of the VRL
A type for stationary service, subsequent to a full discharge in 1 h to 1.6
0 Vpc, is described. Charging rates with an initial constant current equal
to I-10, 3I(10), 7I(10) and with constant voltage of 2.25 Vpc, resulting in
a peak current of 22I(10), were evaluated for their influence on the sites
and magnitude of internal heating, speed of recharge and gas emission phen
omena. The results indicate that recharge with an initial current in the 3I
(10) to 7I(10) range and the maximum voltage limited to 2.25 Vpe appears to
be a viable charging strategy. Full recharge can be achieved in 4-6 h with
the temperature rise limited to 12 degreesC above ambient and the gas evol
ution to an equivalent of 0.41 per cell of a hydrogen-33% oxygen mixture. T
he thermal video imaging revealed that the loci of maximum internal heating
reflect the IR drop and the heat loss through top lead and monobloc walls.
(C) 2001 Elsevier Science B.V. All rights reserved.