![]() This technology has operated well, even in challenging test conditions." “In addition to validation testing, our goal at INL is to push the boundaries of stack operation to find out how technology responds in non-optimal conditions to drive improvement. "The stack has performed well across a broad range of conditions and unexpected events," said Micah Casteel, INL Senior Research Mechanical Design Engineer. INL is the nation’s leading center for nuclear energy research and development, and also performs research in each of DOE’s strategic goal areas: energy, national security, science, and the environment. Department of Energy’s Idaho National Laboratory (INL), which is conducting stack tests to evaluate performance and durability. Lower temperature electrolysis technologies currently available operate at significantly lower efficiency and are not capable of utilizing the excess heat to increase efficiency.įuelCell Energy’s electrolysis technology is under evaluation at the U.S. The platform operates at about 90 percent electrical efficiency (HHV), and is capable of 100 percent electrical efficiency (HHV) when paired with available excess heat from industrial or nuclear facilities. ![]() We believe our solid oxide platform offers one of the best chances of achieving the $1 USD per kg levelized cost of hydrogen targeted by the U.S. This is expected to translate to a 20 to 30% lower cost of hydrogen compared to lower efficiency and low-temperature electrolysis. We believe FuelCell Energy’s solid oxide platform is among the most efficient available electrolysis technologies. Consequently, efficiency is one of the most effective ways to lower cost. The largest factor in the cost of electrolysis-produced hydrogen is the cost of electricity.
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