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Characteristics of Hydrogen and Carbon Production in Tubluar Reactor by Thermal Decomposition of Methane  

Lee, Byung Gwon (Environment & Process Technology Division, Korea Institute of Science & Technology)
Lim, Jong Sung (Environment & Process Technology Division, Korea Institute of Science & Technology)
Choi, Dae Ki (Environment & Process Technology Division, Korea Institute of Science & Technology)
Park, Jeong Kun (Environment & Process Technology Division, Korea Institute of Science & Technology)
Lee, Young Whan (Environment & Process Technology Division, Korea Institute of Science & Technology)
Baek, Young Soon (LNG Technology Research Center, Korea Gas Corporation)
Publication Information
Transactions of the Korean hydrogen and new energy society / v.13, no.2, 2002 , pp. 101-109 More about this Journal
Abstract
This work was focused on the thermal decomposition of methane into hydrogen and carbon black without emitting carbon dioxide. Extensive experimental investigation on the thermal decomposition of methane has been carried out using a continuous flow reaction system with tubular reactor. The experiments were conducted at the atmospheric pressure condition in the wide range of temperature ($950-1150^{\circ}C$) and flow rate (250 - 1500 ml/min) in order to study their dependency on hydrogen yield. During the experiments the carbon black was successfully recovered as an useful product. Undesirable pyrocarbon was also formed as solid film, which was deposited on the inside surface of tubular reactor. The film of pyrocarbon in the reactor wall became thicker and thicker, finally blocking the reactor. The design of an efficient reactor which can effectively suppress the formation of pyrocarbon was thought to be one of the most important subjects in the thermal cracking of methane.
Keywords
Thermal decomposition; Methane; Hydrogen; Carbon black; Pyrocarbon;
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