Abstract
To enable long-term manned space exploration, there are critical needs in oxygen and water for life support, electrical power for on-board operation, and in situ generation of propellants for ascent vehicles. Low temperature electrochemical devices have been developed and utilized for on-board oxygen and power generation in several manned space programs. High temperature solid oxide cell technology offers unique advantages for future space missions. This perspective highlights recent advances in solid oxide cell technology that make it feasible for adoption in aerospace applications and outlines the projected needs in future research and development to better support space exploration.
Publisher
The Electrochemical Society
Subject
Materials Chemistry,Electrochemistry,Surfaces, Coatings and Films,Condensed Matter Physics,Renewable Energy, Sustainability and the Environment,Electronic, Optical and Magnetic Materials
Reference49 articles.
1. NASA’s fuel cell program;Cohn,1969
2. PEM fuel cell status and remaining challenges for manned space-flight applications;Hoberecht,2003
3. The fuel cell in space: yesterday, today and tomorrow;Warshay;J. Power Sources,1990
4. Status of the Advanced Oxygen Generation Assembly Design, ICES-2021–264;Takada,2021
5. Chapter 5.3.3 - Application of hydrogen by use of chemical reactions of Hydrogen and Carbon Dioxide;de Miranda,2019
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