Title :
An 83 Ah Ni-H2 battery for geosynchronous satellite applications
Author :
Yang, T.M. ; Koehler, C.W. ; Applewhite, A.Z.
Author_Institution :
Ford Aerosp., Palo Alto, CA, USA
Abstract :
A 27 cell, 83 Ah nickel-hydrogen battery, designed, assembled, and qualified for a geosynchronous communication satellite, is described. The battery achieves a 44 Wh/kg energy density. Spacecraft operation requires a minimum 10 year life for the battery operating at 70% depth-of-discharge. Accelerated life tests verify that this requirement is achievable. The battery structural and thermal designs were also tested to prove that they can support the mission requirements under the anticipated conditions. An optimal battery charge management procedure under the spacecraft system and environmental constraints is arrived at to ensure that the battery will deliver the required power at the biannual eclipse seasons. Eclipse simulation tests verify this achievement. The battery is shown to have high capacity and high energy density and to be fully capable of fulfilling the mission requirements
Keywords :
hydrogen; life testing; nickel; secondary cells; space vehicle power plants; Ni-H2 secondary cells; accelerated life tests; biannual eclipse seasons; depth-of-discharge; environmental constraints; geosynchronous communication satellite; optimal battery charge management procedure; Aerospace testing; Artificial satellites; Battery management systems; Companies; Manufacturing; Space technology; Space vehicles; Temperature; US Department of Defense; Voltage;
Conference_Titel :
Energy Conversion Engineering Conference, 1989. IECEC-89., Proceedings of the 24th Intersociety
Conference_Location :
Washington, DC
DOI :
10.1109/IECEC.1989.74426
