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dc.contributor.authorMa, Wenping
dc.contributor.authorJacobs, Gary
dc.contributor.authorThomas, Gerald A.
dc.contributor.authorShafer, Wilson D.
dc.contributor.authorSparks, Dennis E.
dc.contributor.authorHamdeh, Hussein H.
dc.contributor.authorDavis, Burtron H.
dc.identifier.citationMa, Wenping; Jacobs, Gary; Thomas, Gerald A.; Shafer, Wilson D.; Sparks, Dennis E.; Hamdeh, Hussein H.; Davis, Burtron H. 2015. Fischer-Tropsch synthesis: Effects of hydrohalic acids in syngas on a precipitated iron catalyst. ACS Catalysis, vol. 5:no. 5:pp 3124-3136en_US
dc.descriptionClick on the DOI link to access the article (may not be free).en_US
dc.description.abstractThe current investigation was undertaken to identify limits of hydrohalic acid (HX, X = F, Cl, Br) impurities in syngas and shed light on the mechanism of FIX poisoning of a 100 Fe/5.1 Si/2 Cu/3 K FTS catalyst under industrially relevant conditions using a 1-L slurry-phase reactor. Co-feeding <2.0 ppm of HCl or HBr in syngas for 72-170 h did not significantly deactivate the Fe catalyst. On the other hand, cofeeding 3.0-5.0 ppm of HCI or HBr in syngas for a similar time period resulted in slow deactivation. A higher tolerance, that is, 5-10 ppm, was observed for HF, indicating a weaker poisoning effect. In all cases, rapid deactivation was accompanied by decreases in C5+ and CO2 selectivities at higher levels of FIX (i.e., 20 ppm and above). Mossbauer spectroscopy and XRD were used to study the Fe phases in the catalyst before and after deactivation induced by each of the FIX poisons. Results of Mossbauer spectroscopy suggest that an adsorptive mechanism is responsible for the deactivation of Fe catalysts by HX poisoning. Co-feeding HX neither significantly changed the distribution of iron carbides (chi-Fe5C2 and epsilon'-Fe2.2C) and magnetite nor formed Fe-X compounds. In addition, it was found that Hagg carbide (chi-Fe5C2) converted to epsilon'-Fe2.2C during the startup period or under low temperature FTS conditions. In this study, the poisoning strengths of F-, Cl-, and Br- on the Fe catalyst were also quantified by calculating the loss in surface Fe atoms per halide ion (Fe/X-), with the following trend being observed at 260 degrees C: Fe/Br- (1.0) > Fe/Cl- (0.9) > Fe/F- (0.4). This order remained the same at 270 degrees C, but the Fe/X- ratio decreased slightly, as expected for an adsorptive mechanism.en_US
dc.description.sponsorshipThis work was made possible by financial support from the U.S. DOE (Contract No. DE-FC26-08NT0006368) and the Commonwealth of Kentucky.en_US
dc.publisherAmerican Chemical Societyen_US
dc.relation.ispartofseriesACS Catalysis;v.5:no.5
dc.subjectFischer-Tropsch synthesisen_US
dc.subjectFe catalysten_US
dc.subjectHydrohalic acids (HX: HF, HCl, or HBr)en_US
dc.titleFischer-Tropsch synthesis: Effects of hydrohalic acids in syngas on a precipitated iron catalysten_US
dc.rights.holderCopyright © 2015 American Chemical Society

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