International Journal of Renewable Energy Research-IJRER

In this paper the features of decomposition of water in an artificial centrifugal field and, in particular, a question on an opportunity of creating a centrifugal hydrogen generator and its use on board the vehicle are theoretically considered.

I. Bolvashenkov, E. Galinker, H.-G. Herzog, Onboard hydrogen generation: tentative estimation of practical realization, in Proc.“The 23nd International Battery, Hybrid and Fuel Cell Electric Vehicle Symposium, EVS-23“, Anaheim, California, USA, December 2007.

T. Mizuno, T. Akimoto, K. Azumi, T. Ohmori, Y. Aoki, A. Takahashi, Hydrogen Evolution by Plasma Electrolysis in Aqueous Solution, Japanese Journal Applied Physics, 2005, Vol.44, No 1A, pp. 396-401.

http://jlnlabs.imars.com/cfr/index.html

P. M. Kanarev, The Foundation of Physchemistry of Micro World, 11-th edition, Krasnodar, Russia, 2009, 1000 p. http://kubagro.ru/science/prof.php?kanarev

H. Cheng, K. Scott, C. Ramshaw, Intensification of Water Electrolysis in a Centrifugal Field, Journal of The Electrochemical Society, 2002, V.149, Issue 11, pp. D172 – D177.

R. Roy, M.L. Rao, J. Kanzius, Observations of polarised RF radiation catalysis of dissociation of H20 - NaCl solutions.Materials Research Innovations, Pennsylvania State University, 2008, Vol.12, No 1, pp. 3-6.

I. Bolvashenkov, I. Shegalov, Ship’s Power Plant, Patent USSR, Publication number SU1452746, Publication date 23.01.1989.