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Carbon dioxide decomposition in a non-self-sustained discharge was studied by the methods of diode laser spectroscopy and mass-spectrometry. It was show that the effective control of the mechanism of a plamachemical reaction is possible by varying the parameter E/N. This allowed us to reduce the energy cost of dissociation CO2 by more than on an order of magnitude as compared to the dissociation process in a self-sustained glow discharge.
S. N. Andreev,V. V. Zakharov,Vladimir N. Ochkin, andS. Y. Savinov
"CO2 decomposition in a non-self-sustained discharge with a controlled electronic component of plasma", Proc. SPIE 4460, Selected Research Papers on Spectroscopy of Nonequilibrium Plasma at Elevated Pressures, (19 March 2002); https://doi.org/10.1117/12.459414
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S. N. Andreev, V. V. Zakharov, Vladimir N. Ochkin, S. Y. Savinov, "CO2 decomposition in a non-self-sustained discharge with a controlled electronic component of plasma," Proc. SPIE 4460, Selected Research Papers on Spectroscopy of Nonequilibrium Plasma at Elevated Pressures, (19 March 2002); https://doi.org/10.1117/12.459414