Study of an iron-based Fischer–Tropsch synthesis catalyst incorporated with SiO2
暂无分享,去创建一个
H. Xiang | Yong-wang Li | Tingzhen Li | Baoshan Wu | Zhichao Tao | Xiaohua An | Haijun Wan
[1] Yong Yang,et al. Study of an iron-manganese Fischer–Tropsch synthesis catalyst promoted with copper , 2006 .
[2] Yong Yang,et al. Effect of air-exposure on reduction behavior of a Fe–Mn–Cu–K/SiO2 Fischer-Tropsch synthesis catalyst , 2005 .
[3] B. Zhong,et al. Structure and Fischer–Tropsch performance of iron–manganese catalyst incorporated with SiO2 , 2005 .
[4] U. Ozkan,et al. Hydrogenation of hexanal over sulfided Ni-Mo/γ-Al2O3 catalysts , 2004 .
[5] Yong Yang,et al. Effect of potassium promoter on precipitated iron-manganese catalyst for Fischer–Tropsch synthesis , 2004 .
[6] H. Xiang,et al. Study on a new iron catalyst for slurry Fischer-Tropsch synthesis , 2004 .
[7] Hyun-Seog Roh,et al. Catalytic investigation for Fischer: Tropsch synthesis from bio-mass derived syngas , 2004 .
[8] Hongwei Xiang,et al. An active iron catalyst containing sulfur for Fischer–Tropsch synthesis , 2004 .
[9] Enrique Iglesia,et al. Promoted iron-based catalysts for the Fischer-Tropsch synthesis: Design, synthesis, site densities, and catalytic properties , 2002 .
[10] W. Sachtler,et al. Spectroscopic Evidence for a Nitrite Intermediate in the Catalytic Reduction of NOx with Ammonia on Fe/MFI , 2002 .
[11] M. Mdleleni,et al. Changes in Physico-Chemical Properties of Iron-Based Fischer–Tropsch Catalyst Induced by SiO2 Addition , 2002 .
[12] G. Hearne,et al. Application of in situ Mössbauer spectroscopy to investigate the effect of precipitating agents on precipitated iron Fischer–Tropsch catalysts , 2002 .
[13] E. Iglesia,et al. Structure and Site Evolution of Iron Oxide Catalyst Precursors during the Fischer−Tropsch Synthesis , 2001 .
[14] Santosh K. Gangwal,et al. Spray-Dried Iron Fischer−Tropsch Catalysts. 1. Effect of Structure on the Attrition Resistance of the Catalysts in the Calcined State , 2001 .
[15] Abhaya K. Datye,et al. Phase Transformations in Iron Fischer–Tropsch Catalysts during Temperature-Programmed Reduction , 2000 .
[16] A. Datye,et al. Improving the attrition resistance of slurry phase heterogeneous catalysts , 2000 .
[17] R. O'brien,et al. Activity, selectivity and attrition characteristics of supported iron Fischer–Tropsch catalysts , 2000 .
[18] Santosh K. Gangwal,et al. Development of Fe Fischer–Tropsch catalysts for slurry bubble column reactors , 2000 .
[19] A. Datye,et al. Characterization of slurry phase iron catalysts for Fischer-Tropsch synthesis , 1999 .
[20] D. Bukur,et al. Activation studies with a precipitated iron catalyst for Fischer-Tropsch synthesis. I. Characterization studies , 1995 .
[21] Gary J. Stiegel,et al. Iron-based catalysts for slurry-phase Fischer-Tropsch process : technology review , 1992 .
[22] A. Wokaun,et al. On the mechanism of CO and CO2 hydrogenation reactions on zirconia-supported catalysts: a diffuse reflectance FTIR study: Part I. Identification of surface species and methanation reactions on palladium/zirconia catalysts , 1990 .
[23] D. Bukur,et al. Binder/support effects on the activity and selectivity of iron catalysts in the Fischer-Tropsch synthesis , 1990 .
[24] N. G. Gallegos,et al. Influence of the support on the activity and selectivity of high dispersion Fe catalysts in the fischer : tropsch reaction , 1990 .
[25] J. Geus,et al. The reduction behavior of silica-supported and alumina-supported iron catalysts: A Mössbauer and infrared spectroscopic study , 1989 .
[26] M. Moskovits,et al. A study of the effects of potassium addition to supported iron catalysts in the Fischer-Tropsch reaction , 1988 .
[27] J. Geus,et al. The reduction behavior of supported iron catalysts in hydrogen or carbon monoxide atmospheres , 1985 .
[28] W. Cooper,et al. Fischer‐tropsch synthesis on a precipitated iron catalyst: Influence of silica support on product selectivities , 1985 .
[29] R. Anderson,et al. The Fischer-Tropsch Synthesis , 1984 .
[30] P. Walker,et al. CO hydrogenation over well-dispersed carbon-supported iron catalysts , 1982 .
[31] J. Niemantsverdriet,et al. Behavior of metallic iron catalysts during Fischer-Tropsch synthesis studied with Mössbauer spectroscopy, X-ray diffraction, carbon content determination, and reaction kinetic measurements , 1980 .
[32] M. Vannice. CO hydrogenation reactions over titania-supported nickel , 1980 .
[33] J. Dumesic,et al. Surface, catalytic and magnetic properties of small iron particles: I. Preparation and characterization of samples , 1975 .
[34] M. Dry,et al. Heats of chemisorption on promoted iron surfaces and the role of alkali in Fischer-Tropsch synthesis , 1969 .
[35] M. Dry,et al. The correlation between catalyst surface basicity and hydrocarbon selectivity in the Fischer-Tropsch synthesis , 1968 .