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Direct borohydride fuel cell

Direct borohydride fuel cells (DBFCs) are a subcategory of alkaline fuel cells that use a solution of sodium borohydride for fuel. The advantage of sodium borohydride over conventional hydrogen in an alkaline fuel cell is that the highly alkaline fuel and waste borax prevents poisoning of the fuel cell from carbon dioxide (CO2) in the air.

Additional recommended knowledge

Sodium borohydride could potentially be used in more conventional hydrogen fuel cell systems as a means of storing hydrogen. The hydrogen can be regenerated for a fuel cell by catalytic decomposition of the borohydride:

NaBH4 + 2H2O → NaBO2 + 4H2

Direct borohydride fuel cells decompose and oxidize the borohydride directly, side-stepping hydrogen production and even producing slightly higher energy yields:

Cathode: 2O2 + 4H2O + 8e- => 8OH- E0=.4 V
Anode: NaBH4 + 8OH- => NaBO2 + 6H2O + 8e- E0=1.24 V Total E0=1.64 V

DBFCs could be produced more cheaply than a traditional fuel cell because they do not need expensive platinum catalysts. In addition, they have a higher power density. Unfortunately, DBFCs do produce some hydrogen from a side step reaction of NaBH4 with water heated by the fuel cell. This hydrogen can either be piped out to the exhaust or piped to a conventional hydrogen fuel cell. Either fuel cell will produce water, and the water can be recycled to allow for higher concentrations of NaBH4.

After releasing its hydrogen and being oxidized, NaBO2 or borax is produced. Borax is a common detergent and soap additive and is relatively non-toxic. Borax can be hydrogenated back into borohydride fuel by several different techniques, some of which require nothing more than water and electricity or heat. These techniques are still in active development.

Sodium borohydride costs US$50 per kg, but with borax recycling and mass production projected prices for the fuel are as low as US$1/kg.

See also

Sustainable development Portal


The Direct Sodium Borohydride Fuel Cell for Unmanned Underwater Vehicle Application (pdf)

MERIT reseach on DBFC

Fuel Cells
Other: Hydrogen Economy | Hydrogen storage | Hydrogen station | Hydrogen Vehicles
This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Direct_borohydride_fuel_cell". A list of authors is available in Wikipedia.
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