Add to ORKGThe NASA Glenn Research Center is developing advanced passive thermal management technology to reduce the mass and improve the reliability of space fuel cell systems for the NASA exploration program. An analysis of a state-of-the-art fuel cell cooling systems was done to benchmark the portion of a fuel cell system s mass that is dedicated to thermal management. Additional analysis was done to determine the key performance targets of the advanced passive thermal management technology that would substantially reduce fuel cell system mass
A program to advance the technology for a cost-effective hydrogen/oxygen fuel cell system for future...
The hiatus in the Space Shuttle (Orbiter) program provided time for an in-depth examination of all t...
A study was conducted to assess the performance characteristics of both PEM and SOFC-based fuel cell...
The NASA Glenn Research Center is developing advanced passive thermal management technology to reduc...
The development and characteristics of advanced spacecraft fuel cell systems are discussed. The syst...
An analysis was performed to evaluate the concept of utilizing conductive cooling plates to remove h...
A three-center NASA team led by the Glenn Research Center in Cleveland, Ohio is completing a five-ye...
The National Aeronautics and Space Administration is developing battery and fuel cell technology to ...
Weight, life and performance characteristics optimization of hydrogen-oxygen fuel cell power systems...
In early 1996 as part of NASA's overall efforts to improve space shuttle operations, NASA undertook ...
On-going testing of an 11 cell, 10.7 in. x 14 in. stack (about 1 kW) reached 2600 hours on steady lo...
Advancements in the production of proton exchange membrane fuel cells have NASA considering their us...
Heating, ventilation and air conditioning equipment are integrated with three types of fuel cells. S...
The goal of the NASA Advanced Space Power Systems Project is to develop advanced, game changing tech...
Summarized are the results of a 12-month study to identify high performance regenerative hydrogen-ox...
A program to advance the technology for a cost-effective hydrogen/oxygen fuel cell system for future...
The hiatus in the Space Shuttle (Orbiter) program provided time for an in-depth examination of all t...
A study was conducted to assess the performance characteristics of both PEM and SOFC-based fuel cell...
The NASA Glenn Research Center is developing advanced passive thermal management technology to reduc...
The development and characteristics of advanced spacecraft fuel cell systems are discussed. The syst...
An analysis was performed to evaluate the concept of utilizing conductive cooling plates to remove h...
A three-center NASA team led by the Glenn Research Center in Cleveland, Ohio is completing a five-ye...
The National Aeronautics and Space Administration is developing battery and fuel cell technology to ...
Weight, life and performance characteristics optimization of hydrogen-oxygen fuel cell power systems...
In early 1996 as part of NASA's overall efforts to improve space shuttle operations, NASA undertook ...
On-going testing of an 11 cell, 10.7 in. x 14 in. stack (about 1 kW) reached 2600 hours on steady lo...
Advancements in the production of proton exchange membrane fuel cells have NASA considering their us...
Heating, ventilation and air conditioning equipment are integrated with three types of fuel cells. S...
The goal of the NASA Advanced Space Power Systems Project is to develop advanced, game changing tech...
Summarized are the results of a 12-month study to identify high performance regenerative hydrogen-ox...
A program to advance the technology for a cost-effective hydrogen/oxygen fuel cell system for future...
The hiatus in the Space Shuttle (Orbiter) program provided time for an in-depth examination of all t...
A study was conducted to assess the performance characteristics of both PEM and SOFC-based fuel cell...