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Development of a Highly
Efficient Solid State Electrochemical Hydrogen Compressor--FuelCell Energy, Inc., 3 Great Pasture Road, Danbury, CT 06813; 203-825-6057; www.fce.com
Dr. Ludwig Lipp,
Principal Investigator, llipp@fce.com
Mr. Ross Levine, Business
Official, rlevine@fce.com
DOE Grant No. DE-FG02-07ER84772
Amount: $99,985
With the depletion of fossil fuel reserves and a global
requirement to develop a sustainable economy, hydrogen-based energy is becoming
increasingly important. In the
transportation sector, on-board storage of pure hydrogen may be required at
pressures up to 10,000 psi, with compression of the
hydrogen fuel ranging to 12,000 psi or even
higher. However, the level of maturity
of current hydrogen compressor technology is not adequate to meet these requirements. Existing compressors are inefficient and have
many moving parts, resulting in significant component wear and therefore
excessive maintenance. This project will
develop an efficient, low-cost, solid-state electrochemical hydrogen compressor
(EHC) based on Polymer Electrolyte Membrane (PEM) technology. Phase I will design, fabricate, and
demonstrate an advanced, low-cost, solid-state, PEM hydrogen compressor cell
capable of compressing hydrogen from 50 psi to 2,000 psi. In Phase II,
the effort will be extended to develop electrochemical cell architectures
capable of compressing hydrogen up to 12,000 psi.
Commercial Applications and other Benefits as
described by the awardee: The successful execution of this
project should enable the conversion of low-pressure hydrogen, derived from
on-site sources, to high purity high-pressure hydrogen for vehicular
refueling. In addition, the proposed EHC should find use in industrial
applications, such as refinery and ammonia plants. Moreover, the technology will be scalable,
allowing the construction of solid-state compressors that can move large
volumes of hydrogen through pipelines to meet infrastructure demands. Altogether, a multi-billion dollar market
potential exists.