The development and characteristics of advanced spacecraft fuel cell systems are discussed. The system is designed to operate on low pressure, propulsion grade hydrogen and oxygen. The specific goals are 10,000 hours of operation with refurbishment, 20 pounds per kilowatt at a sustained power of 7 KW, and 21 KW peaking capability for durations of two hours. The system rejects waste heat to the spacecraft cooling system at power levels up to 7 KW. At higher powers, the system automatically transfers to open cycle operation with overboard steam venting
The NASA Glenn Research Center is developing advanced passive thermal management technology to reduc...
The goal of the NASA Advanced Space Power Systems Project is to develop advanced, game changing tech...
Theory, operation, and testing of components, single and multicell assemblies, static moisture remov...
A program to advance the technology for a cost-effective hydrogen/oxygen fuel cell system for future...
Weight, life and performance characteristics optimization of hydrogen-oxygen fuel cell power systems...
The status of the baselined shuttle fuel cell as well as the acid membrane fuel cell and space-orien...
The past, present, and future of space fuel cell power systems is reviewed, starting with the first ...
A fuel cell technology program was established to advance the state-of-the art of hydrogen oxygen fu...
A fuel cell technology program which was established to advance the state-of-the-art of hydrogen-oxy...
Summarized are the results of a 12-month study to identify high performance regenerative hydrogen-ox...
This presentation provides a high-level summary of recent fuel cell and electrolysis development act...
Performance characteristics of hydrogen oxygen fuel cells for spacecraft, and electrochemical techni...
The results of a 12 month study to identify high performance regenerative hydrogen-oxygen fuel cell ...
This paper presents the results of an assessment of the requirements and technology for the Proton E...
A multiple task research and development program was performed to improve the weight, life, and perf...
The NASA Glenn Research Center is developing advanced passive thermal management technology to reduc...
The goal of the NASA Advanced Space Power Systems Project is to develop advanced, game changing tech...
Theory, operation, and testing of components, single and multicell assemblies, static moisture remov...
A program to advance the technology for a cost-effective hydrogen/oxygen fuel cell system for future...
Weight, life and performance characteristics optimization of hydrogen-oxygen fuel cell power systems...
The status of the baselined shuttle fuel cell as well as the acid membrane fuel cell and space-orien...
The past, present, and future of space fuel cell power systems is reviewed, starting with the first ...
A fuel cell technology program was established to advance the state-of-the art of hydrogen oxygen fu...
A fuel cell technology program which was established to advance the state-of-the-art of hydrogen-oxy...
Summarized are the results of a 12-month study to identify high performance regenerative hydrogen-ox...
This presentation provides a high-level summary of recent fuel cell and electrolysis development act...
Performance characteristics of hydrogen oxygen fuel cells for spacecraft, and electrochemical techni...
The results of a 12 month study to identify high performance regenerative hydrogen-oxygen fuel cell ...
This paper presents the results of an assessment of the requirements and technology for the Proton E...
A multiple task research and development program was performed to improve the weight, life, and perf...
The NASA Glenn Research Center is developing advanced passive thermal management technology to reduc...
The goal of the NASA Advanced Space Power Systems Project is to develop advanced, game changing tech...
Theory, operation, and testing of components, single and multicell assemblies, static moisture remov...
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