Life cycle test results of a bipolar nickel hydrogen battery
Abstract
A history is given of low Earth orbit (LEO) laboratory test data on a 6.5 ampere-hour bipolar nickel hydrogen battery designed and built at the NASA Lewis Research Center. The bipolar concept is a means of achieving the goal of producing an acceptable battery, of higher energy density, able to withstand the demands of low-Earth-orbit regimes. Over 4100 LEO cycles were established on a ten cell battery. It seems that any perturbation on normal cycling effects the cells performance. Explanations and theories of the battery's behavior are varied and widespread among those closely associated with it. Deep discharging does provide a reconditioning effect and further experimentation is planned in this area. The battery watt-hour efficiency is about 75 percent and the time averaged, discharge voltage is about 1.26 volts for all cells at both the C/4 and LEO rate. Since a significant portion of the electrode capacity has degraded, the LEO cycle discharges are approaching depths of 90 to 100 percent of the high rate capacity. Therefore, the low end-of-discharge voltages occur precipitously after the knee of the discharge curve and is more an indication of electrode capacity and is a lesser indicator of overall cell performance.
- Publication:
-
The 1984 Goddard Space Flight Center Battery Workshop
- Pub Date:
- July 1985
- Bibcode:
- 1985batt.work..537C
- Keywords:
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- Earth Orbits;
- Nickel Hydrogen Batteries;
- Spacecraft Orbits;
- Spacecraft Power Supplies;
- Bipolarity;
- Efficiency;
- Electric Discharges;
- Performance Tests;
- Electronics and Electrical Engineering