2016
DOI: 10.1021/acs.iecr.6b03171
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Influence of Fabrication Temperature and Time on Light Olefin Selectivity of Iron–Cobalt–Cerium Mixed Oxide Nanocatalyst for CO Hydrogenation

Abstract: The Fischer–Tropsch synthesis process is a polymerization reaction in which various chain lengths of product can be produced from a mixture of CO and H2 (synthesis gas). A solvothermal technique was used to synthesize magnetic iron–cobalt–cerium mixed oxide nanoparticles. Process variables such as reaction temperature and time can play an important role in a chemical process. The results showed that the optimal preparation time and temperature in order to enhance light olefin (C2–C4) selectivity is 18 h and 12… Show more

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Cited by 8 publications
(1 citation statement)
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“…The results obtained by Maiti et al [32] showed that in iron-manganese catalysts, if manganese content is low the interaction of the metals is significant and the formation of light olefins increases. The positive role of rare-earth metal oxides especially ceria on thermal stability, selectivity and activity of FT catalysts has been confirmed [33]. The studies of Barrault et al [34,35] revealed that addition of CeO 2 as a promoter has been increased CO hydrogenation due to C-O bond weakening.…”
Section: Introductionmentioning
confidence: 91%
“…The results obtained by Maiti et al [32] showed that in iron-manganese catalysts, if manganese content is low the interaction of the metals is significant and the formation of light olefins increases. The positive role of rare-earth metal oxides especially ceria on thermal stability, selectivity and activity of FT catalysts has been confirmed [33]. The studies of Barrault et al [34,35] revealed that addition of CeO 2 as a promoter has been increased CO hydrogenation due to C-O bond weakening.…”
Section: Introductionmentioning
confidence: 91%