Water-gas-shift catalysis

Knudsen J, Nilekar AU, Vang RT, Schnadt J, Kunkes EL, Mavrikakis M, Dumesic JA. 2007. A Cu/Pt near-surface alloy for water-gas shift catalysis. J Am Chem Soc 129 6485-6490. [Pg.310]

Jacobs, G., Khalid, S., Patterson, P.M., Sparks, D.E., and Davis, B.H. 2004. Water-gas shift catalysis Kinetic isotope effect identifies surface formates in rate limiting step for Pt/ceria catalysts. Appl. Catal. A Gen. 268 255-66. [Pg.394]

Spencer—marked differences in forward/reverse shift activation energies, implications regarding formate/redox pathways and microreversibility. Spencer288 reported an interesting observation. By that time, numerous studies on water-gas shift and reverse water-gas shift catalysis had been published. [Pg.188]

K. (2005) Noble metal water gas shift catalysis Kinetics study and reactor design. International Journal of Hydrogen Energy, 30 (11), 1259-1264. [Pg.306]

Williams WD, et al. Metallic corner atoms in gold clusters supported on rutile are the dominant active site dining water-gas shift catalysis. J Am Chem Soc. 2010 132 (40) 14018-20. [Pg.32]

Patt, J., Moon, D.J., Phillips, C., and Thompson, L. Molybdenum carbide catalysts for water-gas shift. Catalysis Letters, 2000, 65, 193. [Pg.328]

Water gas shift catalysis has been practiced for 90 years in hydrogen and syngas production. High- and low-temperature WGS is run in industry in adiabatic reactors using Fe-Cr- and Cu-Zn-based formulations. The established catalysts have not changed dramatically in the last 40 years, but continue to improve marginally. [Pg.3214]

In all of the foregoing reactions involving CO oxidation, actual water gas shift catalysis is not observed. Instead, it appears that a metal hydride forms which acts as the reducing agent, thereby making it unnecessary to liberate H2 in order to carry out the reduction. [Pg.561]

Sakamoto F, Chen FL, Kinari Y, Sakamoto Y. Int J Hydrogen Energy. 1996 210 1024. Campbell CT. H2S/Cu(lll) A model study of sulfur poisoning of water-gas shift catalysis. Surf Sci. 1987 183 100. [Pg.200]

J. Patt D. J. Moon C. Phillips L. Thompson. Molybdenum Carbide Catalysts for Water-Gas Shift. Catalysis Letters. 65, 193-195, 2000. [Pg.161]

Bali S, Turpin GC, Ernst RD, Pugmire RJ,. Singh V, Seehra MS, Eyring EM (2008) Water gas shift catalysis using iron aerogels doped with palladium by the gas-phase incorporation method, linergy Fuels 22 1439-1443. [Pg.169]

The most general hypothesis which can be made is the steady-state hypothesis (noted S S H below), which states that the net rate of reactive intermediate production is nil Let us exemplify this rule with a non-conventional mechanism proposed in Ref 2, p 62 It is assumed that the water gas shift catalysis... [Pg.52]

Werner, S., Szesni, N., Kaiser, M., Fischer, R.W., Haumann, M. and Wasserscheid, R, Ultra-low-temperature water-gas shift catalysis using supported ionic liquid phase (SILP) materials, ChemCatChem. 2,1399-1402 (2010). [Pg.204]

Liu ZP, Jenkins SJ, King DA Origin and activity of oxidized gold in water-gas-shift catalysis, Phys Rev Lett 94(19) 196102, 2005. [Pg.56]

See also in sourсe #XX -- [ Pg.107 , Pg.108 , Pg.109 , Pg.110 , Pg.111 , Pg.112 , Pg.113 , Pg.114 , Pg.115 , Pg.116 , Pg.117 , Pg.118 , Pg.119 , Pg.123 , Pg.124 , Pg.125 , Pg.126 , Pg.127 , Pg.128 , Pg.129 , Pg.130 ]

See also in sourсe #XX -- [ Pg.156 , Pg.160 , Pg.253 , Pg.259 , Pg.268 ]

Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...