Experimental Investigation of Premixed Methane-Air Combustion Assisted by Alternating-Current Rotating Gliding Arc

In this paper, the experimental results on rotating gliding arc plasma-assisted premixed methane-air combustion are presented. It is demonstrated that the plasma has beneficial effect on stabilizing the flame via shrinking the methane oxidation zone, preventing the liftoff of flame, and promoting th...

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Published in:IEEE transactions on plasma science 2015-12, Vol.43 (12), p.3979-3985
Main Authors: Wu, Wen Wei, Ni, Guo Hua, Lin, Qi Fu, Guo, Qi Jia, Meng, Yue Dong
Format: Article
Language:English
Subjects:
Combustion
Methane
OH radical
Oxidation
Plasma applications
Plasma physics
Plasma temperature
plasma-assisted combustion (PAC)
premixed
rotating gliding arc
stabilization
Temperature distribution
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creator Wu, Wen Wei
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description In this paper, the experimental results on rotating gliding arc plasma-assisted premixed methane-air combustion are presented. It is demonstrated that the plasma has beneficial effect on stabilizing the flame via shrinking the methane oxidation zone, preventing the liftoff of flame, and promoting the reformation of CH4 into CO and H2 in the combustion process. The effects of discharge power and equivalence ratio on the relative population of OH radicals produced in the combustion chamber have also been investigated. It has been found that the relative population of OH radical rises with an increasing discharge power, but fluctuates with the increase in equivalence ratio due to the different methane oxidation mechanisms.
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source IEEE Electronic Library (IEL) Journals
subjects Combustion
Methane
OH radical
Oxidation
Plasma applications
Plasma physics
Plasma temperature
plasma-assisted combustion (PAC)
premixed
rotating gliding arc
stabilization
Temperature distribution
title Experimental Investigation of Premixed Methane-Air Combustion Assisted by Alternating-Current Rotating Gliding Arc
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