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Article
Development and Simulation of an Embedded Hydrogen Peroxide Catalyst Chamber in Low-Temperature Co-Fired Ceramics
International Journal of Applied Ceramic Technology
  • Donald Plumlee, University of Idaho
  • Judi Steciak, University of Idaho
  • Amy Moll, Boise State University
Document Type
Article
Publication Date
10-1-2007
Abstract
Satellites in the range of 10–50 kg require small propulsion devices to perform station-keeping tasks in orbit. Low-temperature co-fired ceramic structures provide a unique platform to produce a reliable, low-cost micropropulsion system. The design uses microchannels embedded in the ceramic substrate to create a nozzle and embedded catalyst chamber. A hydrogen peroxide monopropellant is injected into a silver-coated catalyst chamber structure. The monopropellant decomposes into hot gas, which is expelled through the nozzle producing thrust. A thermal energy balance and a kinetic model is presented along with performance testing.
Citation Information
Donald Plumlee, Judi Steciak and Amy Moll. "Development and Simulation of an Embedded Hydrogen Peroxide Catalyst Chamber in Low-Temperature Co-Fired Ceramics" International Journal of Applied Ceramic Technology (2007)
Available at: http://works.bepress.com/amy_moll/25/