Catalytic CH4 reforming with CO2 over activated carbon based catalysts
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M. Fan | Yulong Zhang | Yanan Liu | M. Argyle | Xiaoxun Ma | Long Xu | Yanjun Li | Zhu Lin
[1] Wei Chen,et al. High carbon-resistance Ni/CeAlO3-Al2O3 catalyst for CH4/CO2 reforming , 2013 .
[2] Yongfa Zhang,et al. Syngas production by carbon dioxide reforming of methane over different semi-cokes , 2013 .
[3] Hong-zhong Li,et al. Effect of granulation on the activity and stability of a Co-Al2O3 aerogel catalyst in a fluidized-bed reactor for CH4-CO2 reforming , 2013 .
[4] T. Hayakawa,et al. Catalysis by Carbon Materials for the Aerobic Baeyer–Villiger Oxidation in the Presence of Aldehydes , 2013 .
[5] J. Xiang,et al. Study on Char Surface Active Sites and Their Relationship to Gasification Reactivity , 2013 .
[6] Weiming Cheng. Simultaneous Determination of Five Active Ingredients in Huangshixiangsheng Pills by HPLC , 2013 .
[7] F. B. Noronha,et al. Hydrogen production through CO2 reforming of CH4 over Pt/CeZrO2/Al2O3 catalysts using a Pd–Ag membrane reactor , 2012 .
[8] P. Sánchez,et al. Precursor influence and catalytic behaviour of Ni/CeO2 and Ni/SiC catalysts for the tri-reforming process , 2012 .
[9] J. Bunt,et al. Influence of added potassium and sodium carbonates on CO2 reactivity of the char from a demineralized inertinite rich bituminous coal , 2012 .
[10] J. A. Menéndez,et al. Study of energy consumption in a laboratory pilot plant for the microwave-assisted CO2 reforming of CH4 , 2012 .
[11] Meilin Liu,et al. High surface area, micro/mesoporous carbon particles with selectable 3-D biogenic morphologies for tailored catalysis, filtration, or adsorption† , 2011 .
[12] Xiaoyan Dai,et al. CH4–CO2 reforming by plasma – challenges and opportunities , 2011 .
[13] Fereshteh Meshkani,et al. Ni catalysts supported on nanocrystalline magnesium oxide for syngas production by CO2 reforming of CH4 , 2011 .
[14] J. A. Menéndez,et al. Carbon Materials as Catalysts for Decomposition and CO2 Reforming of Methane: A Review , 2011 .
[15] Yongfa Zhang,et al. Effect of carbon deposition over carbonaceous catalysts on CH4 decomposition and CH4-CO2 reforming , 2010 .
[16] V. Gómez-Serrano,et al. Oxidation of activated carbon by dry and wet methods: Surface chemistry and textural modifications , 2010 .
[17] J. A. Menéndez,et al. Synthesis of carbon-supported nickel catalysts for the dry reforming of CH4 , 2010 .
[18] Yongfa Zhang,et al. CO2 reforming of CH4 in coke oven gas to syngas over coal char catalyst , 2010 .
[19] Wan Mohd Ashri Wan Daud,et al. Hydrogen production by methane decomposition: A review , 2010 .
[20] Hazzim F. Abbas,et al. An experimental investigation into the CO2 gasification of deactivated activated-carbon catalyst used for methane decomposition to produce hydrogen , 2010 .
[21] Zhonghua Zhu,et al. Production of hydrogen from methane decomposition using nanosized carbon black as catalyst in a fluidized-bed reactor , 2009 .
[22] Hazzim F. Abbas,et al. Thermocatalytic decomposition of methane using palm shell based activated carbon: Kinetic and deactivation studies , 2009 .
[23] Shengguang Wang,et al. Reactivity of surface OH in CH4 reforming reactions on Ni(111): A density functional theory calculation , 2009 .
[24] A. Dufour,et al. Effect of micropores diffusion on kinetics of CH4 decomposition over a wood-derived carbon catalyst , 2009 .
[25] Kap Seung Yang,et al. Effect of added nickel nitrate on the physical, thermal and morphological characteristics of polyacrylonitrile-based carbon nanofibers , 2009 .
[26] W. Zhang,et al. Preparation of an Industrial Ni-Based Catalyst and Investigation on CH4/CO2 Reforming to Syngas , 2009 .
[27] J. Botas,et al. Ordered mesoporous carbons as highly active catalysts for hydrogen production by CH(4) decomposition. , 2008, Chemical communications.
[28] Anthony Dufour,et al. Catalytic decomposition of methane over a wood char concurrently activated by a pyrolysis gas , 2008 .
[29] Beatriz Fidalgo,et al. Microwave-assisted dry reforming of methane , 2008 .
[30] R. Xiao,et al. Catalytic Carbon Dioxide Reforming of Methane to Synthesis Gas over Activated Carbon Catalyst , 2008 .
[31] Yang Wang,et al. On the Reaction Mechanism of CO2 Reforming of Methane Over a Bed of Coal Char , 2007 .
[32] Heejoon Kim,et al. Denitrification mechanism of NaOH in the presence of carbon. , 2005, Environmental science & technology.
[33] N. Muradov,et al. Catalytic activity of carbons for methane decomposition reaction , 2005 .
[34] R. Moliner,et al. Thermocatalytic decomposition of methane over activated carbons: influence of textural properties and surface chemistry , 2005 .
[35] Heejoon Kim,et al. Denitrification mechanism in combustion of biocoal briquettes. , 2005, Environmental science & technology.
[36] H. Arakawa,et al. CO2 hydrogenation reactivity and structure of Rh/SiO2 catalysts prepared from acetate, chloride and nitrate precursors , 2001 .
[37] M. Baerns,et al. Rhodium-catalyzed partial oxidation of methane to CO and H2. In situ DRIFTS studies on surface intermediates , 1994 .
[38] A. Tomita,et al. Local structures of metals dispersed on coal. 5. Effect of coal, catalyst precursor, and catalyst preparation method on the structure of iron species during heat treatment and steam gasification , 1993 .