Metal hydride fuel cell

Metal hydride fuel cells are a subclass of alkaline fuel cells that are in the research and development phase. A notable feature is their ability to chemically bond and store hydrogen within the cell. This feature is shared with direct borohydride fuel cells, although the two differ in that MHFCs are refueled with pure hydrogen. Though the absorption characteristic of metal hydrides (around 2%) is far lower than sodium-borohydrides and other "light" metal hydrides (around 10.8%),^[1] prototypes have been claimed to demonstrate a number of interesting characteristics:

The ability to be recharged with electrical energy (similar to NiMH batteries);
Low operating temperatures (down to −20°C);
Fast kinetics;
Extended shelf life;
Fast "cold start" properties;
Ability to operate for limited periods of time with no external hydrogen source, enabling "hot swapping" of fuel canisters.

Metal hydrides fuel cells are being researched by ECD Ovonics, as well as by the Japanese National Institute of Advanced Industrial Science and Technology (AIST). Though similar, the two MHFC concepts use different catalysts.^[2] Thus far, neither research project has produced a demonstrable model outside of a laboratory – only publications and patents – and significant efficiency hurdles have yet to be overcome. The Ovonics and AIST metal hydride fuel cells claim current densities of 250 mA/cm² and 20 mA/cm², respectively, versus typical PEMFC performance at 1 A/cm².

Bibliography

Appleby, John; C. Wang; F. Little (2003). "204th Meeting of the Electrochemical Society". The Electrochemical Society, Inc. |contribution= ignored (help)
Wang, X.H.; et al. (1999). "Electrochemical properties of Ml(NiCoMnCu)5 used as an alkaline fuel cell anode". Journal of Alloys and Compounds. 293-295: 833–837. doi:10.1016/S0925-8388(99)00367-9.
Lee, S-M.; J.-H. Kim, H.-H. Lee, P S. Lee and J.-Y. Lee (2002). "The Characterization of an Alkaline Fuel Cell that Uses Hydrogen Storage Alloys". Journal of the Electrochemical Society. 149 (5): A603–A606. doi:10.1149/1.1467365. Cite uses deprecated parameter |coauthors= (help)
Tanaka, H.; N. Kaneki; H. Hara; K. Shimada; T. Takeuchi (April 1986). "La-Ni System Porous Anode in an Alkaline Fuel Cell". Canadian Journal of Chemical Engineering. 64 (2): 267–271. doi:10.1002/cjce.5450640216.

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Fuel cells

By electrolyte	Alkaline fuel cell Molten carbonate fuel cell Phosphoric acid fuel cell Proton exchange membrane fuel cell Solid oxide fuel cell

By fuel	Direct-ethanol fuel cell Direct methanol fuel cell Formic acid fuel cell Reformed methanol fuel cell Zinc-air battery

Biofuel cells	Enzymatic biofuel cell Microbial fuel cell

Others	Blue energy Direct borohydride fuel cell Direct carbon fuel cell Electro-galvanic fuel cell Flow battery Membraneless Fuel Cells Metal hydride fuel cell Photoelectrochemical cell Protonic ceramic fuel cell Regenerative fuel cell Solid oxide electrolyser cell Unitized regenerative fuel cell

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Glossary

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Metal hydride fuel cell

Bibliography

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