Iron—Ceria Aerogels Doped with Palladium as Water—Gas Shift Catalysts for the Production of HydrogenBALI, Sumit; HUGGINS, Frank E; ERNST, Richard D et al.Industrial & engineering chemistry research. 2010, Vol 49, Num 4, pp 1652-1657, issn 0888-5885, 6 p.Article

Nondeactivating Nanosized Ionic Catalysts for Water-Gas Shift ReactionSHARMA, Sudhanshu; DESHPANDE, Parag A; HEGDE, M. S et al.Industrial & engineering chemistry research. 2009, Vol 48, Num 14, pp 6535-6543, issn 0888-5885, 9 p.Article

Investigation on the Combined Operation of Water Gas Shift and Preferential Oxidation Reactor System on the kW ScaleO'CONNELL, Martin; KOLB, Gunther; SCHELHAAS, Karl-Peter et al.Industrial & engineering chemistry research. 2010, Vol 49, Num 21, pp 10917-10923, issn 0888-5885, 7 p.Conference Paper

Aqueous catalyst systems for the water-gas shift reaction. III: Continuous gas processing resultsELLIOTT, D. C; SEALOCK, L. J. JR; BUTNER, R. S et al.Industrial & engineering chemistry product research and development. 1986, Vol 25, Num 4, pp 541-549, issn 0196-4321Article

Kinetic Study of a Novel Active and Stable Catalyst for the Water Gas Shift ReactionCORNAGLIA, Carolina A; MUNERA, John F; LOMBARDO, Eduardo A et al.Industrial & engineering chemistry research. 2011, Vol 50, Num 8, pp 4381-4389, issn 0888-5885, 9 p.Article

Rate Expression for Water-Gas Shift over a Gold/Ferrochrome CatalystVAJANI, Gaurav N; LERK NG, Shea; LUND, Carl R. F et al.Industrial & engineering chemistry research. 2011, Vol 50, Num 18, pp 10493-10499, issn 0888-5885, 7 p.Article

Carbon Capture by Sorption-Enhanced Water―Gas Shift Reaction Process using Hydrotalcite-Based MaterialVAN SELOW, E. R; COBDEN, P. D; VERBRAEKEN, P. A et al.Industrial & engineering chemistry research. 2009, Vol 48, Num 9, pp 4184-4193, issn 0888-5885, 10 p.Article

Investigation of the Enhanced Water Gas Shift Reaction Using Natural and Synthetic Sorbents for the Capture of CO₂MÜLLER, Christoph R; PACCIANI, Roberta; BOHN, Christopher D et al.Industrial & engineering chemistry research. 2009, Vol 48, Num 23, pp 10284-10291, issn 0888-5885, 8 p.Article

Effects of water gas shift gases on Pd-Cu alloy membrane surface morphology and separation propertiesKULPRATHIPANJA, Ames; ALPTEKIN, Gökhan O; FALCONER, John L et al.Industrial & engineering chemistry research. 2004, Vol 43, Num 15, pp 4188-4198, issn 0888-5885, 11 p.Article

Deactivation of Modified Iron Oxide Materials in the Cyclic Water Gas Shift Process for CO-Free Hydrogen ProductionGALVITA, Vladimir; HEMPEL, Thomas; LORENZ, Heike et al.Industrial & engineering chemistry research. 2008, Vol 47, Num 2, pp 303-310, issn 0888-5885, 8 p.Article

Engineering evaluations of a catalytic membrane reactor for the water gas shift reaction : Membrane engineeringBARBIERI, Giuseppe; BRUNETTI, Adele; GRANATO, Teresa et al.Industrial & engineering chemistry research. 2005, Vol 44, Num 20, pp 7676-7683, issn 0888-5885, 8 p.Article

Water―gas shift on gold catalysts: catalyst systems and fundamental studiesTAO, Franklin; ZHEN MA.PCCP. Physical chemistry chemical physics (Print). 2013, Vol 15, Num 37, pp 15260-15270, issn 1463-9076, 11 p.Article

Effect of Sorbent Type on the Sorption Enhanced Water Gas Shift Process in a Fluidized Bed ReactorYANG LIU; ZHENSHAN LI; LEI XU et al.Industrial & engineering chemistry research. 2012, Vol 51, Num 37, pp 11989-11997, issn 0888-5885, 9 p.Article

Dimethyl Ether Reforming in a Mesoporous γ-Alumina Membrane Reactor Combined with a Water Gas Shift ReactionPARK, Sang-Jun; LEE, Dong-Wook; YU, Chang-Yeol et al.Industrial & engineering chemistry research. 2008, Vol 47, Num 5, pp 1416-1420, issn 0888-5885, 5 p.Article

On chemical equilibria in methanol synthesisGRAAF, G. H; SIJTSEMA, P. J. J. M; STAMHUIS, E. J et al.Chemical engineering science. 1990, Vol 45, Num 3, pp 769-770, issn 0009-2509Article

Effect of the precursor on the activity of high temperature water gas shift catalystsDUFOUR, J; MARTOS, C; RUIZ, A et al.International journal of hydrogen energy. 2013, Vol 38, Num 18, pp 7647-7653, issn 0360-3199, 7 p.Conference Paper

Growth of Methane Clathrate Hydrates in Porous MediaJIN, Yusuke; KONNO, Yoshihiro; NAGAO, Jiro et al.Energy & fuels. 2012, Vol 26, Num MARAVR, pp 2242-2247, issn 0887-0624, 6 p.Article

Effect of Titania Addition on the Performance of CoMo/Al₂O₃ Sour Water Gas Shift Catalysts under Lean Steam to Gas Ratio ConditionsBONAN LIU; QIUYUN ZONG; EDWARDS, Peter P et al.Industrial & engineering chemistry research. 2012, Vol 51, Num 36, pp 11674-11680, issn 0888-5885, 7 p.Article

Determination of the Low-Temperature Water-Gas Shift Reaction Kinetics Using a Cu-Based CatalystMENDES, Diogo; CHIBANTE, Vânia; MENDES, Adélio et al.Industrial & engineering chemistry research. 2010, Vol 49, Num 22, pp 11269-11279, issn 0888-5885, 11 p.Article

Comparison of Nanosized Gold-Based and Copper-Based Catalysts for the Low-Temperature Water-Gas Shift ReactionMENDES, Diogo; GARCIA, Hermenegildo; SILVA, V. B et al.Industrial & engineering chemistry research. 2009, Vol 48, Num 1, pp 430-439, issn 0888-5885, 10 p.Article

Weighting variation of water-gas shift in steam reforming of methane over supported Ni and Ni-Cu catalystsHUANG, Ta-Jen; YU, Tien-Chun; JHAO, Shih-Yao et al.Industrial & engineering chemistry research. 2006, Vol 45, Num 1, pp 150-156, issn 0888-5885, 7 p.Article

Conversion of liquid hydrocarbons into H₂ and CO₂ by integration of reforming and the water-gas shift reaction on highly active multifunctional catalystsLINSHENG WANG; MURATA, Kazuhisa; INABA, Megumu et al.Industrial & engineering chemistry research. 2004, Vol 43, Num 13, pp 3228-3232, issn 0888-5885, 5 p.Article

Optimizing Argon Recovery: Membrane Separation of Carbon Monoxide at High Concentrations via the Water Gas ShiftHARLACHER, Thomas; SCHOLZ, Marco; MELIN, Thomas et al.Industrial & engineering chemistry research. 2012, Vol 51, Num 38, pp 12463-12470, issn 0888-5885, 8 p.Article

Activity and stability of Cu-CeO₂ catalysts in high-temperature water-gas shift for fuel-cell applicationsXIAOMEI QI; FLYTZANI-STEPHANOPOULOS, Maria.Industrial & engineering chemistry research. 2004, Vol 43, Num 12, pp 3055-3062, issn 0888-5885, 8 p.Article

In situ/operando studies for the production of hydrogen through the water-gas shift on metal oxide catalysts : Interfacial phenomena in (de)hydrogenation reactionsRODRIGUEZ, José A; HANSON, Jonathan C; STACCHIOLA, Dario et al.PCCP. Physical chemistry chemical physics (Print). 2013, Vol 15, Num 29, pp 12004-12025, issn 1463-9076, 22 p.Article