Light olefin synthesis from a diversity of renewable and fossil feedstocks: state-of the-art and outlook
Light olefins are important feedstocks and platform molecules for the chemical industry.
Their synthesis has been a research priority in both academia and industry. There are many …
Their synthesis has been a research priority in both academia and industry. There are many …
Review on technologies for conversion of natural gas to methanol
Continuous flaring of natural gas remains a great environmental threatening practice going
on in most upstream hydrocarbon production industry across the globe. About 150 billion m …
on in most upstream hydrocarbon production industry across the globe. About 150 billion m …
Iron particle size effects for direct production of lower olefins from synthesis gas
HM Torres Galvis, JH Bitter, T Davidian… - Journal of the …, 2012 - ACS Publications
The Fischer–Tropsch synthesis of lower olefins (FTO) is an alternative process for the
production of key chemical building blocks from non-petroleum-based sources such as …
production of key chemical building blocks from non-petroleum-based sources such as …
Pore size effects in high-temperature Fischer–Tropsch synthesis over supported iron catalysts
This paper addresses the effect of support pore sizes on the structure and performance of
iron catalysts supported by mesoporous silicas in high-temperature Fischer–Tropsch …
iron catalysts supported by mesoporous silicas in high-temperature Fischer–Tropsch …
Fischer-Tropsch synthesis: catalysts and chemistry
J Van de Loosdrecht, FG Botes, IM Ciobica… - … Inorganic Chemistry II …, 2013 - research.tue.nl
Abstract The Fischer–Tropsch synthesis represents a time-tested and fully proven
technology for the conversion of synthesis gas (CO+ H2) into paraffins, olefins, and …
technology for the conversion of synthesis gas (CO+ H2) into paraffins, olefins, and …
Correlating the preparation and performance of cobalt catalysts supported on carbon nanotubes and carbon spheres in the Fischer–Tropsch synthesis
A series of Co catalysts supported on carbon nanotubes (CNTs) and carbon spheres (CSs)
with different cobalt particle sizes (3–45nm) were prepared by different methods and using …
with different cobalt particle sizes (3–45nm) were prepared by different methods and using …
Selective fabrication of χ-Fe5C2 by interfering surface reactions as a highly efficient and stable Fischer-Tropsch synthesis catalyst
Fabrication of χ-Fe 5 C 2 active phase is important for efficient iron-based Fischer-Tropsch
synthesis but faces a challenge in the controllable synthesis of high purity phase. Herein, we …
synthesis but faces a challenge in the controllable synthesis of high purity phase. Herein, we …
The product distribution in Fischer–Tropsch synthesis: An extension of the ASF model to describe common deviations
D Förtsch, K Pabst, E Groß-Hardt - Chemical Engineering Science, 2015 - Elsevier
In this paper, an analytical extension of the classical ideal Anderson–Schulz–Flory (ASF)
distribution for the products of Fischer–Tropsch reactions is presented. The extension …
distribution for the products of Fischer–Tropsch reactions is presented. The extension …
Surface morphology of Hägg iron carbide (χ-Fe5C2) from ab initio atomistic thermodynamics
S Zhao, XW Liu, CF Huo, YW Li, J Wang, H Jiao - Journal of catalysis, 2012 - Elsevier
Ab initio atomistic thermodynamics is utilized to achieve the understanding of the surface
structure and stability of χ-Fe5C2 under CO and synthesis gas (H2/CO) pretreatment …
structure and stability of χ-Fe5C2 under CO and synthesis gas (H2/CO) pretreatment …
[HTML][HTML] Highly selective iron-based Fischer–Tropsch catalysts activated by CO2-containing syngas
Fischer–Tropsch synthesis (FTS) was carried out over precipitated iron-based catalysts
activated by syngas (H 2+ CO) with different amounts of CO 2 (0%, 20%, 33%, and 50%) …
activated by syngas (H 2+ CO) with different amounts of CO 2 (0%, 20%, 33%, and 50%) …