FischerâTropsch synthesis: product distribution, operating conditions, iron catalyst deactivation and catalyst speciation
- Institute for the Development of Energy for African Sustainability (IDEAS) Research Unit, University of South Africa (UNISA), Florida Science Campus, Private Bag X6, Johannesburg, 1710, South Africa
- College of Science, Engineering and Technology (CSET), University of South Africa (UNISA), Florida Science Campus, Private Bag X6, Johannesburg, 1710, South Africa
Published in Issue 2023-11-17
How to Cite
Gorimbo, J., Muleja, A., Liu, X., & Hildebrandt, D. (2023). FischerâTropsch synthesis: product distribution, operating conditions, iron catalyst deactivation and catalyst speciation. International Journal of Industrial Chemistry, 9(4). https://doi.org/https://doi.org/10.1007/s40090-018-0161-4
HTML views: 40
PDF views: 173
Abstract
Laboratory experiments conducted for long time on stream (TOS: 14,350 h) provide information on FischerâTropsch synthesis (FTS) that is representative of time scales of industrial operations. Operation conditions that deliver desirable conversion and product distribution were investigated. Low gas hourly space velocity (GHSV) gave the highest conversion of 20.97% with the highest C5+ selectivity achieved was 59.77%, which was obtained at the highest GHSV level. A one-way ANOVA, followed by a post-hoc Bonferroni correction test, indicated a significant difference in response to GHSV with P(Tâ<=t) two-tail values ranging from 1.5âÃâ10â4 to 2.7âÃâ10â35. The optimum condition for paraffin production is high pressure and low GHSV: in our experiments, this corresponded to 20.85 bar (abs): 648 hâ1. Conversely, olefins production is favored low pressure and low GHSV [1.85 bar (abs): 648 hâ1]. C5+ production was favored at high GHSV (2592 hâ1) and was very sensitive to GHSV, as the sensitivity to C5+ products dropped sharply when the GHSV decreased to low values (from 1296 to 648 hâ1</sup>); furthermore, the selectivity to C5+ was found to be independent of pressure. The pressure effect on selectivity is complex and selectivity toward overall gaseous (paraffinâ+âolefin) hydrocarbons and C5+ does not seem to be significantly affected by variations in pressure. Long TOS FTS runs are possible ca. 14,500 h though product distribution trends tend to be changed. The catalyst survived long runs, though the selectivity to FTS became comparatively less favored than WGS with increasing TOS. Our findings may have useful implication for the design of a mobile small-scale biomass/waste to liquid process that would last for period similar to that of an industrial plant.
Keywords
- Catalyst activity,
- Fischer,
- Iron catalyst,
- Product distribution,
- Reduction,
- Time on stream,
- Tropsch synthesis
https://doi.org/10.1007/s40090-018-0161-4
