| 1 - 3 |
Catalytic combustion - Introductory remarks
Geus JW |
| 5 - 17 |
Stability of supported metal and supported metal oxide combustion catalysts
McCarty JG, Gusman M, Lowe DM, Hildenbrand DL, Lau KN |
| 19 - 27 |
Deactivation of palladium catalyst in catalytic combustion of methane
Euzen P, Le Gal JH, Rebours B, Martin G |
| 29 - 44 |
Complete methane oxidation over Pd catalyst supported on alpha-alumina. Influence of temperature and oxygen pressure on the catalyst activity
Lyubovsky M, Pfefferle L |
| 45 - 49 |
Catalysis of H-2, CO and alkane oxidation-combustion over Pt/silica catalysts: evidence of coupling and promotion
Hoyle ND, Kumarasamy P, Self VA, Sermon PA, Vong MSW |
| 51 - 71 |
New technology for production of spherical alumina supports for fluidized bed combustion
Ismagilov ZR, Shkrabina RA, Koryabkina NA |
| 73 - 82 |
Preparation and characterization of LaCrO3 and Cr2O3 methane combustion catalysts supported on LaAl11O18 and Al2O3-coated monoliths
Zwinkels MFM, Haussner O, Menon PG, Jaras SG |
| 83 - 93 |
Catalytic combustion of methane on aluminate-supported copper oxide
Artizzu P, Garbowski E, Primet M, Brulle Y, Saint-Just J |
| 95 - 101 |
Oxidation of methane over Pd/mixed oxides for catalytic combustion
Widjaja H, Sekizawa K, Eguchi K, Arai H |
| 103 - 113 |
Catalytic oxidation of methane over hexaaluminates and hexaaluminate-supported Pd catalysts
Jang BWL, Nelson RM, Spivey JJ, Ocal M, Oukaci R, Marcelin G |
| 115 - 121 |
Fiber-supported perovskites for catalytic combustion of natural gas
Klvana D, Kirchnerova J, Chaouki J, Delval J, Yaici W |
| 123 - 132 |
Catalytic oxidation over lanthanum-transition metal perovskite materials
O'Connell M, Norman AK, Huttermann CF, Morris MA |
| 133 - 140 |
Catalytic combustion of hydrocarbons with Mn and Cu-doped ceria-zirconia solid solutions
Terribile D, Trovarelli A, de Leitenburg C, Primavera A, Dolcetti G |
| 141 - 147 |
Catalytic combustion of methane over supported bimetallic Pd catalysts: Effects of Ru or Rh addition
Ryu CK, Ryoo MW, Ryu IS, Kang SK |
| 149 - 153 |
Catalytic combustion of lean methane-air mixtures
Sazonov VA, Ismagilov ZR, Prokudina NA |
| 155 - 160 |
Catalytic combustion of CH4 and CO on La1-xMxMnO3 perovskites
Song KS, Cui HX, Kim SD, Kang SK |
| 161 - 167 |
The reduction and oxidation behaviour of manganese oxides
Stobbe ER, de Boer BA, Geus JW |
| 169 - 180 |
Monoliths in catalytic oxidation
Geus JW, van Giezen JC |
| 181 - 190 |
Thick-film coating of hexaaluminate catalyst on ceramic substrates for high-temperature combustion
Inoue H, Sekizawa K, Eguchi K, Arai H |
| 191 - 197 |
The development of novel metal-based combustion catalysts
van Giezen JC, Intven M, Meijer MD, Geus JW, Mulder A, Riphagen GJ, Brouwer JP |
| 199 - 207 |
Catalytic activity of powder and monolith perovskites in methane combustion
Ciambelli P, Palma V, Tikhov SF, Sadykov VA, Isupova LA, Lisi L |
| 209 - 218 |
Modelling catalytic combustion in monolith reactors -challenges faced
Kolaczkowski ST |
| 219 - 228 |
Ignition in alkane oxidation on noble-metal catalysts
Veser G, Ziauddin M, Schmidt LD |
| 229 - 234 |
C-H bond activation in hydrocarbon oxidation on heterogeneous catalysts
Burch R, Crittle DJ, Hayes MJ |
| 235 - 244 |
Chemical modelling and measurements of the catalytic combustion of CF4/air mixtures on platinum and palladium catalysts
Moallemi F, Batley G, Dupont V, Foster TJ, Pourkashanian M, Williams A |
| 245 - 252 |
Combustion of methane over palladium/zirconia: effect of Pd-particle size and role of lattice oxygen
Muller CA, Maciejewski M, Koeppel RA, Baiker A |
| 253 - 262 |
Numerical analysis of a catalytic radiant burner: effect of catalyst on radiant efficiency and operability
Rumminger MD, Hamlin RD, Dibble RW |
| 263 - 277 |
Unsteady state treatment of very lean waste gases in a network of catalytic burners
Brinkmann M, Barresi AA, Vanni M, Baldi G |
| 279 - 286 |
Non-steady activity during methane combustion over Pd/Al2O3 and the influences of Pt and CeO2 additives
Deng YQ, Nevell TG |
| 287 - 293 |
The effect of water on the activity of supported palladium catalysts in the catalytic combustion of methane
van Giezen JC, van den Berg FR, Kleinen JL, van Dillen AJ, Geus JW |
| 295 - 303 |
A study of Nusselt and Sherwood numbers in a monolith reactor
Hayes RE, Kolaczkowski ST |
| 305 - 313 |
Advanced technology catalytic combustor for high temperature ground power gas turbine applications
Etemad S, Karim H, Smith LL, Pfefferle WC |
| 315 - 319 |
Modeling of high-temperature catalytic combustors: Comparison between theory and experimental data
Papadias D, Zwinkels MFM, Edsberg L, Bjornbom P |
| 321 - 323 |
XPS analysis of the oxidation of palladium model catalysts
Voogt EH, Mens AJM, Gijzeman OLJ, Geus JW |
| 325 - 338 |
Application concepts and evaluation of small-scale catalytic combustors for natural gas
Sadamori H |
| 339 - 346 |
Fluidized bed catalytic combustion
Ismagilov ZR, Kerzhentsev MA |
| 347 - 351 |
Novel compact steam reformer for fuel cells with heat generation by catalytic combustion augmented by induction heating
Polman EA, Der Kinderen JM, Thuis FMA |
| 353 - 357 |
The catalytic combustion of methane and hydrogen sulphide
Lee JH, Trimm D, Cant NW |
| 359 - 367 |
Circumventing fuel-NOx formation in catalytic combustion of gasified biomass
Johansson EM, Jaras SG |
| 369 - 375 |
Application of catalytic combustion to a 1.5 MW industrial gas turbine
Dalla Betta RA, Rostrup-Nielsen T |
| 377 - 389 |
Catalytic combustion concept for gas turbines
Kuper WJ, Blaauw M, van der Berg E, Graaf GH |
| 391 - 398 |
Development of a catalytic combustor for a heavy-duty utility gas turbine
Cutrone MB, Beebe KW, Dalla Betta RA, Schlatter JC, Nickolas SG, Tsuchiya T |
| 399 - 405 |
Development of a catalytically assisted combustor for a gas turbine
Ozawa Y, Fujii T, Sato M, Kanazawa T, Inoue H |
| 407 - 414 |
Catalytic radiant burner for stationary and mobile applications
Emonts B |
| 415 - 420 |
Catalytic combustion in a domestic natural gas burner
Vaillant SR, Gastec AS |
| 421 - 427 |
Development of a catalytic burner with Pd/NiO catalysts
Seo YS, Kang SK, Han MH, Baek YS |
| 429 - 435 |
Perovskite-type oxide monolithic catalysts for combustion of chlorinated hydrocarbons
Schneider R, Kiessling D, Wendt G, Burckhardt W, Winterstein G |
