DocumentCode
69680
Title
Hydrogen Production From Partial Oxidation of Methane Using an AC Rotating Gliding Arc Reactor
Author
Xiao Dong Li ; Hao Zhang ; Shi Xin Yan ; Jian Hua Yan ; Chang Ming Du
Author_Institution
Inst. for Thermal Power Eng., Zhejiang Univ., Hangzhou, China
Volume
41
Issue
1
fYear
2013
fDate
Jan. 2013
Firstpage
126
Lastpage
132
Abstract
Hydrogen, as well as petrochemical feedstock, can be produced by the partial oxidation of methane in an alternating-current rotating-gliding-arc plasma driven by swirling flow. The effects of the air ratio (0.6 to 1.6), height of outer cover (25 and 45 cm), supply voltage (6.6 to 11.1 kV), and gas flow rate (6 to 18 L/min) on methane reforming have been investigated. The conversion of methane grows with rising air ratio, whereas hydrogen selectivity first augments and then declines. A higher outer cover was beneficial, and maximum methane conversion attains 80.73%. Higher voltage improves the reactor performance. As gas flow rate grows, both methane conversion and hydrogen selectivity diminish, while power consumption first drops to a minimum value of 8.23 kJ/L H2 for a flow rate of 16 L/min and then again amplifies.
Keywords
arcs (electric); chemical reactors; hydrogen production; organic compounds; oxidation; plasma applications; plasma chemistry; plasma sources; AC rotating gliding arc reactor; H2; air ratio effects; alternating current rotating gliding arc plasma; altitude 25 cm; altitude 45 cm; gas flow rate effects; hydrogen production; hydrogen selectivity; methane conversion; methane partial oxidation; methane reforming; outer cover height effects; petrochemical feedstock; supply voltage effects; swirling flow; voltage 6.6 kV to 11.1 kV; Electrodes; Hydrogen; Inductors; Oxidation; Plasmas; Power demand; Production; Hydrogen; methane; partial oxidation; plasma; rotating gliding arc (RGA);
fLanguage
English
Journal_Title
Plasma Science, IEEE Transactions on
Publisher
ieee
ISSN
0093-3813
Type
jour
DOI
10.1109/TPS.2012.2226608
Filename
6353986
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