Methane conversion to higher hydrocarbons by pulsed glow discharge at the atmospheric pressure was investigated. The energy efficiency up to 10 % was obtained which is higher than any value ever published for nonequilibrium plasma conversion of pure methame. This method has a potential for development and it is expected that the energy efficiency will be improved further if the plasma parameters are optimized.
A. M. Ghorbanzadeh, , M. A. Khodagholi, , N. S. Matin, , S. Norouzi, and M. T. Mohammadi, . (2019). Methane conversion to hydrocarbons by double discharge. Iranian Journal of Physics Research, 4(3), 287-296.
MLA
A. M. Ghorbanzadeh, , , M. A. Khodagholi, , , N. S. Matin, , , S. Norouzi, , and M. T. Mohammadi, . "Methane conversion to hydrocarbons by double discharge", Iranian Journal of Physics Research, 4, 3, 2019, 287-296.
HARVARD
A. M. Ghorbanzadeh , M. A. Khodagholi , N. S. Matin , S. Norouzi , M. T. Mohammadi . (2019). 'Methane conversion to hydrocarbons by double discharge', Iranian Journal of Physics Research, 4(3), pp. 287-296.
CHICAGO
A. M. Ghorbanzadeh, M. A. Khodagholi, N. S. Matin, S. Norouzi and M. T. Mohammadi, "Methane conversion to hydrocarbons by double discharge," Iranian Journal of Physics Research, 4 3 (2019): 287-296,
VANCOUVER
A. M. Ghorbanzadeh , M. A. Khodagholi , N. S. Matin , S. Norouzi , M. T. Mohammadi . Methane conversion to hydrocarbons by double discharge. Iranian Journal of Physics Research. 2019;4(3):287-296 (In Persian).