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A Study on the Fischer-Tropsch Synthesis for Production of Hydrocarbon from Syngas under Gas Phase and Supercritical Phase  

Kim, Chul-Ung (한국화학연구원 석유대체기술연구센터)
Jeong, Soon-Yong (한국화학연구원 석유대체기술연구센터)
Jeong, Kwang-Eun (한국화학연구원 석유대체기술연구센터)
Chae, Ho-Jeong (한국화학연구원 석유대체기술연구센터)
Kim, Tae-Wan (한국화학연구원 석유대체기술연구센터)
Park, Hyun-Joo (한국화학연구원 석유대체기술연구센터)
Lee, Sang-Bong (한국화학연구원 석유대체기술연구센터)
Kim, Jung-Hyun (한국화학연구원 석유대체기술연구센터)
Han, Jeong-Sik (국방과학연구소 1기술연구본부 5부)
Jeong, Byung-Hun (국방과학연구소 1기술연구본부 5부)
Publication Information
Journal of the Korean Society of Propulsion Engineers / v.15, no.3, 2011 , pp. 15-21 More about this Journal
Abstract
With petroleum reserves dwindling, interest has been increasing worldwide in Fischer-Tropsch synthesis (FT) as a method of producing synthetic liquid fuels and chemicals from coal, natural gas or biomass. In general, FT synthesis is operated through the gas phase fixed-bed reaction system. Recently, there are lots of study in supercritical fluid due to unique characteristics such as the quick diffusion of reactant gas, effective removal of reaction heat, and the in-situ extraction of high molecular weight hydrocarbon, such as wax. In this study, our major aim is to obtain a deeper insight into the effect of the type of support on the reaction performance over a supported cobalt catalyst in a fixed bed reactor.
Keywords
Fischer-tropsch; Cobalt-based Catalyst; Syngas; Petroleum Displacement Resource;
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