| 207 - 207 |
Proceedings of the 2nd Workshop on C-1-C-3 Hydrocarbon Conversion Held in Krasnoyarsk, Russia 27-30 June 1994 - Foreword
Anshits AG, Voskresenskaya EN |
| 211 - 216 |
Catalytic Partial Oxidation of Methane to Synthesis Gas
Heitnes K, Lindberg S, Rokstad OA, Holmen A |
| 217 - 223 |
The Role of the Defect Structure of Oxide Catalysts for the Oxidative Coupling of Methane - The Activation of the Oxidant
Anshits AG, Voskresenskaya EN, Kondratenko EV, Maksimov NG |
| 225 - 230 |
Basic Sites on the Oxide Surfaces - Their Effect on the Catalytic Methane Coupling
Davydov AA, Shepotko ML, Budneva AA |
| 231 - 236 |
On the Nature of Active-Sites of Silica-Based Oxide Catalysts in the Partial Oxidation of Methane to Formaldehyde
Parmaliana A, Arena F, Frusteri F, Miceli D, Sokolovskii V |
| 237 - 242 |
Partial Oxidation of Methane to Synthesis Gas over (Ca,Sr)(Ti,Ni) Oxides
Takehira K, Hayakawa T, Harihara H, Andersen AG, Suzuki K, Shimizu M |
| 243 - 244 |
Mechanisms of Catalytic Activation of Methane and Ethylene on Magnesia Surface Elucidated by Isotopic Kinetics
Muzykantov VS, Shestov AA, Ehwald H |
| 245 - 248 |
Oxidative Coupling of Methane on the Superionic Conductors
Yingli B, Litao L, Kaiji Z |
| 249 - 250 |
New Methods of Increasing the Catalytic Activity and Selectivity in the Oxidative Conversion Processes of Methane and Propylene
Garibyan TA, Muradyan AA, Grigoryan RR, Vartikyan LA, Minasyan VT, Manukyan NS |
| 251 - 252 |
Selective Oxidation of Methane to Methanol on a Fezsm-5 Surface
Sobolev VI, Dubkov KA, Panna OV, Panov GI |
| 253 - 255 |
Effect of Supports on the Carbon Deposition of Nickel-Catalysts for Methane Reforming with CO2
Tang SB, Qiu FL, Lu SJ |
| 257 - 258 |
Catalytic Methane Steam Reforming - Novel Results
Bobrova II, Bobrov NN, Davydov AA |
| 259 - 261 |
Study on the Oxidative Coupling of Methane - XRD and XPS Study of TiO2-Based Catalysts Promoted by Different Additives
Gong MC, Zhou JL, Xu ZH, Chen YQ, Chen Y |
| 263 - 264 |
Study on Oxidative Coupling of Methane - Effect of Additives on TiO2-Based Catalytic Performance
Gong MC, Xu XH, Chen YQ, Zhou JL, Chen Y |
| 265 - 267 |
Morphology of Carbon from Methane on Nickel-Containing Catalysts
Chesnokov VV, Zaikovskii VI, Buyanov RA, Molchanov VV, Plyasova LM |
| 269 - 271 |
Synthesis of Mechanically Strong and Thermally Stable Spherical Alumina Catalyst Supports for the Process of Methane Dimerization in a Fluidized-Bed
Ismagilov ZR, Shkrabina RA, Koryabkina NA, Kapteijn F |
| 273 - 275 |
Oxidative Coupling of Methane over Oxides of Alkali-Earth Metals Using N2O as Oxidant
Kondratenko EV, Maksimov NG, Selyutin GE, Anshits AG |
| 277 - 279 |
Comparison of O-2 and N2O as Oxidants for the Oxidative Coupling of Methane over Bi-Containing Oxide Catalysts
Voskresenskaya EN, Kurteeva LI, Pervyshina GG, Anshits AG |
| 281 - 284 |
Oxidative Coupling of Methane over Sodium Doped V-Mo-O-SiO2 Honeycomb Catalysts
Ismagilov ZR, Parmaliana A, Frusteri F, Miceli D, Kirchanov AA, Barannik GB |
| 285 - 287 |
Kinetic-Studies of Oxidative Coupling of Methane on Samarium Oxide
Vereshchagin SN, Ross JR |
| 289 - 291 |
Conversion of Natural-Gas to Liquids and Hydrogen in a Thermal-Diffusion Column TDC Reactor
Shigapov AN, Gesser HD |
| 293 - 295 |
Catalytic Oxidative Conversion of Methane
Galanov SI, Kurina LN, Galanov AI, Davydov AA, Belousova VN |
| 297 - 298 |
Numerical Modeling of the Dynamics of Methane Oxidation
Bykov VI, Vishnevskaya TI, Tsirulnichenko NM |
| 299 - 300 |
Oxidative Coupling of Methane over Sodium-Doped CaO Catalysts Prepared by the Sol-Gel Method
Yamamura M, Okado H, Chaki K, Wakatsuki T, Inaba K, Suzuki S, Yoshinari T |
| 301 - 303 |
Effect of Hydrogen Pumping on the Rate of Methane Oxidation over a Platinum-Electrode
Belyaev VD, Sobyanin VA, Gorelov VP, Galvita VV |
| 307 - 313 |
The Oxidative Dehydrogenation of Ethane and Propane as an Alternative Way for the Production of Light Olefins
Cavani F, Trifiro F |
| 315 - 320 |
Ethane Oxidative Dehydrogenation over Boron Oxides Supported on Yttria-Stabilized Zirconia
Otsuka K, Ando T, Suprapto S, Wang Y, Ebitani K, Yamanaka I |
| 321 - 325 |
Conversion of Ethane to Methanol and Ethanol by Ozone Sensitized Partial Oxidation at Near Atmospheric-Pressure
Gesser HD, Zhu G, Hunter NR |
| 327 - 333 |
Propane Oxidation over Various Metal Molybdate Catalysts
Yoon YS, Fujikawa N, Ueda W, Morooka Y, Lee KW |
| 335 - 340 |
Active Specie on Vanadium-Containing Catalysts for the Selective Oxidation of Ethane to Acetic-Acid
Tessier L, Bordes E, Gubelmannbonneau M |
| 341 - 348 |
In-Situ NMR Identification of the Intermediates and the Reaction-Products in Alcohols and Hydrocarbons Conversion on Zeolites
Stepanov AG |
| 349 - 355 |
Conversion of Hydrocarbons over Zeolites and Phosphoric-Acid
Vereshchagin SN, Dugaev KP, Kirik NP, Shishkina NN, Anshits AG |
| 357 - 359 |
Influence of Bulk Oxygen Diffusion on the Kinetics of Partial Oxidation over Molybdenum-Containing Catalysts
Alkaeva EM, Andrushkevich TV, Ovsitser OY, Sokolovskii VD |
| 361 - 364 |
Propane Dehydrogenation over Supported Platinum Catalysts - Effect of Tin as a Promoter
Barias OA, Holmen A, Blekkan EA |
| 365 - 368 |
Oxidative Dehydrogenation of Ethane to Ethylene over Antimony-Containing Keggin-Type Heteropolyoxomolybdates
Cavani F, Koutyrev M, Trifiro F |
| 371 - 375 |
The Regularities in the Interaction of Alkanes with CO2 on Oxide Catalysts
Krylov OV, Mamedov AK, Mirzabekova SR |
| 377 - 381 |
Catalyst Properties and Direction of Selective Oxidative Transformations of C-1-C-3 Paraffins
Sokolovskii VD |
| 383 - 387 |
Molecular-Models of Active-Sites of C-1 and C-2 Hydrocarbon Activation
Zhidomirov GM, Avdeev VI, Zhanpeisov NU, Zakharov II, Yudanov IV |
| 389 - 393 |
Kinetic Modeling of Heterogeneous-Homogeneous Radical Processes of the Partial Oxidation of Low Paraffins
Sinev MY |
| 395 - 401 |
The Hydrocarbon Processing-Industry in Siberia
Kryukov VA |
