Development of the technology for preparing and storing hydrogen with the use of nanostructured materials for an autonomous integrated wind power plant

This paper reports on the results of investigations into the design of an operating prototype of the power plant for the production and accumulation of hydrogen. The objective of this work is to develop technologies of intermediate storage of hydrogen with subsequent generation of an electric power...

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Bibliographic Details
Published in:Glass physics and chemistry 2009-10, Vol.35 (5), p.491-503
Main Authors: Danilevich, Ya. B., Zhabrev, V. A., Goncharov, V. D., Kruchinina, I. Yu, Mironov, B. N., Tsvetkova, I. N., Khamova, T. V., Shilova, O. A.
Format: Article
Language:English
Subjects:
Ceramics
Characterization and Evaluation of Materials
Chemistry and Materials Science
Composites
Fuel cells
Glass
Integrated software
Materials Science
Natural Materials
Physical Chemistry
Power plants
Studies
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Summary:This paper reports on the results of investigations into the design of an operating prototype of the power plant for the production and accumulation of hydrogen. The objective of this work is to develop technologies of intermediate storage of hydrogen with subsequent generation of an electric power due to the electrochemical processes occurring in fuel cells with an efficiency of no lower than 90%. The power plant is based on the wind power plant, which operates using an integrated software-hardware system for control over the power regime of the entire technological process. New membrane and catalytic materials prepared by the solgel method are used as functional components of fuel cells.
ISSN:1087-6596
1608-313X
DOI:10.1134/S1087659609050071