Contents Converting greenhouse gas into value-added chemicals and fuels is one of the biggest technical challenges in 21st century. Non-thermal plasma (NTP) technology is a promising way to tackle this challenge, owing to its high efficiency in overcoming the thermodynamic limitation of reactions under mild conditions. In this paper, non-thermal plasma driven by nanosecond pulse power source, has been utilized for CH4 dry reforming and CO2 hydrogenation in a dielectric barrier discharge reactor. The effects of electrical parameters (including pulse rising & falling time, pulse repetition frequency, pulse width and applied voltage) and CO2 molar fraction on conversion performance and gas product distribution have been investigated.
Abstract:
Converting greenhouse gas into value-added chemicals and fuels is one of the biggest technical challenges in 21st century1. Non-thermal plasma (NTP) technology is a promi...Show MoreMetadata
Abstract:
Converting greenhouse gas into value-added chemicals and fuels is one of the biggest technical challenges in 21st century1. Non-thermal plasma (NTP) technology is a promising way to tackle this challenge, owing to its high efficiency in overcoming the thermodynamic limitation of reactions under mild conditions. In this paper, non-thermal plasma driven by nanosecond pulse power source, has been utilized for CH4 dry reforming and CO2 hydrogenation in a dielectric barrier discharge reactor. The effects of electrical parameters (including pulse rising & falling time, pulse repetition frequency, pulse width and applied voltage) and CO2 molar fraction on conversion performance and gas product distribution have been investigated2.
Date of Conference: 06-10 December 2020
Date Added to IEEE Xplore: 25 February 2022
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1.
E. Jwa, S. B. Lee, H. W. Lee and Y. S. Mok, " Plasma-assisted catalytic methanation of CO and CO 2 over Ni–zeolite catalysts ", Fuel Processing Technology, vol. 108, pp. 89-93, 2013.
2.
X. Wang, Y. Gao, S. Zhang, H. Sun, J. Li and T. Shao, "Nanosecond pulsed plasma assisted dry reforming of CH4: The e· ect of plasma operating parameters", Applied Energy, vol. 243, pp. 132-144, 2019.
