Design principles for nickel hydrogen cells and batteries
Abstract
Nickel hydrogen cells, and more recently, bipolar batteries have been built by a variety of organizations. The design principles that have been used by the technology group at the Lewis Research Center draw upon their extensive background in separator technology, alkaline fuel cell technology, and several alkaline cell technology areas. These design principles have been incorporated into both the more contemporary individual pressure vessel (IPV) designs that were pioneered by other groups, as well as the more recent bipolar battery designs using active cooling that are being developed at LeRC and their contractors. These principles are rather straightforward applications of capillary force formalisms, coupled with the slowly developing data base resulting from careful post test analyses. The objective of this overall effort is directed towards the low Earth orbit (LEO) application where the cycle life requirements are much more severe than the geosynchronous orbit (GEO) application. Nickel hydrogen cells have already been successfully flown in an increasing number of GEO missions.
- Publication:
-
The 1984 Goddard Space Flight Center Battery Workshop
- Pub Date:
- July 1985
- Bibcode:
- 1985batt.work..427T
- Keywords:
-
- Earth Orbits;
- Hydrogen-Based Energy;
- Nickel Hydrogen Batteries;
- Spacecraft Power Supplies;
- Aging (Metallurgy);
- Design Analysis;
- Electrodes;
- Electrolytes;
- Separators;
- Service Life;
- Electronics and Electrical Engineering