Kinetic effect of alkylaromatics on the thermal stability of hydrocarbons under geological conditions
暂无分享,去创建一个
V. Burkle-Vitzthum | P. Marquaire | G. Scacchi | R. Michels | D. Dessort | B. Pradier | O. Brévart | V. Burklé-Vitzthum
[1] P. Marquaire,et al. Mechanistic modeling of the thermal cracking of decylbenzene. Application to the prediction of its thermal stability at geological temperatures , 2003 .
[2] R. Bounaceur,et al. Up to what temperature is petroleum stable? New insights from a 5200 free radical reactions model , 2002 .
[3] R. Bounaceur,et al. Inhibiting effect of tetralin on the pyrolytic decomposition of hexadecane. Comparison with toluene , 2002 .
[4] Roda Bounaceur,et al. Modeling of hydrocarbons pyrolysis at low temperature. Automatic generation of free radicals mechanisms , 2002 .
[5] H. Budzinski,et al. Thermal stability of alkylaromatics in natural systems: Kinetics of thermal decomposition of dodecylbenzene , 2002 .
[6] P. Faure,et al. Understanding of reservoir gas compositions in a natural case using stepwise semi-open artificial maturation , 2002 .
[7] P. Savage,et al. Pyrolysis Kinetics for Long-Chain n-Alkylcyclohexanes , 2001 .
[8] B. Simoneit,et al. The role of alkenes produced during hydrous pyrolysis of a shale , 2000 .
[9] R. Bounaceur,et al. Mechanistic Modeling of the Thermal Cracking of Tetralin , 2000 .
[10] P. Landais,et al. Role of Polar Compounds as Source of Hydrocarbons and Reactive Medium during the Artificial Maturation of Mahakam Coal , 2000 .
[11] Pierre-Alexandre Glaude,et al. Computer Based Generation of Reaction Mechanisms for Gas-phase Oxidation , 2000, Comput. Chem..
[12] D. Waples. The kinetics of in-reservoir oil destruction and gas formation: constraints from experimental and empirical data, and from thermodynamics , 2000 .
[13] H. R. Gregg,et al. Thermal dealkylation of dodecylbenzene and dodecylcyclohexane , 1998 .
[14] V. Warth,et al. Computer-Aided Derivation of Gas-Phase Oxidation Mechanisms: Application to the Modeling of the Oxidation of n-Butane , 1998 .
[15] F. Dominé,et al. Towards a new method of geochemical kinetic modelling: implications for the stability of crude oils , 1998 .
[16] F. Mango,et al. The catalytic decomposition of petroleum into natural gas , 1997 .
[17] H. R. Gregg,et al. Decomposition kinetics and mechanism of n-hexadecane-1,2-13C2 and dodec-1-ene-1,2-13C2 doped in petroleum and n-hexadecane , 1997 .
[18] M. Lewan. Experiments on the role of water in petroleum formation , 1997 .
[19] F. Mango. Transition metal catalysis in the generation of natural gas , 1996 .
[20] M. Vandenbroucke,et al. Experimental Determination of the Rate Constants of the n-C25 Thermal Cracking at 120, 400, and 800 bar: Implications for High-Pressure/High-Temperature Prospects , 1996 .
[21] R. Mcneil,et al. Thermal Stability of Hydrocarbons: Laboratory Criteria and Field Examples , 1996 .
[22] P. Landais,et al. Evolution of Asphaltenes during Artificial Maturation: A Record of the Chemical Processes , 1996 .
[23] P. Landais,et al. Importance of the Reacting Medium in Artificial Maturation of a Coal by Confined Pyrolysis. 1. Hydrocarbons and Polar Compounds , 1995 .
[24] P. Landais,et al. Effects of effluents and water pressure on oil generation during confined pyrolysis and high-pressure hydrous pyrolysis , 1995 .
[25] R. Michels,et al. Influence of pressure and the presence of water on the evolution of the residual kerogen during confined, hydrous, and high-pressure hydrous pyrolysis of Woodford shale , 1995 .
[26] P. Landais,et al. Are time and temperature the only constraints to the simulation of organic matter maturation , 1994 .
[27] L. Stalker,et al. Water as an oxygen source for the production of oxygenated compounds (including CO2 precursors) during kerogen maturation , 1994 .
[28] L. Kuo,et al. A multicomponent oil-cracking kinetics model for modeling preservation and composition of reservoired oils , 1994 .
[29] P. Landais,et al. Analysis of confined pyrolysis effluents by thermodesorption-multidimensional gas chromatography , 1994 .
[30] Jeffrey S. Seewald,et al. Evidence for metastable equilibrium between hydrocarbons under hydrothermal conditions , 1994, Nature.
[31] A. James,et al. Role of transition-metal catalysis in the formation of natural gas , 1994, Nature.
[32] D. Welte,et al. An investigation of the in-reservoir conversion of oil to gas: compositional and kinetic findings from closed-system programmed-temperature pyrolysis , 1992 .
[33] P. Savage,et al. Reactions of polycyclic alkylaromatics. 4. Hydrogenolysis mechanisms in 1-alkylpyrene pyrolysis , 1992 .
[34] A. Katritzky,et al. Reactivity of Organic Compounds in Hot Water: Geochemical and Technological Implications , 1991, Science.
[35] A. Katritzky,et al. Aqueous organic chemistry. 1. Aquathermolysis: comparison with thermolysis in the reactivity of aliphatic compounds , 1990 .
[36] M. Monthioux,et al. Pyrolysis of organic matter in cold-seal pressure autoclaves. Experimental approach and applications , 1989 .
[37] M. Monthioux. Expected mechanisms in nature and in confined-system pyrolysis , 1988 .
[38] F. Behar,et al. Hydrogen-transfer reactions in the thermal cracking of asphaltenes , 1988 .
[39] J. Herron,et al. Compilation of chemical kinetic data for combustion chemistry. Part 2. Non-aromatic C, H, O, N, and S containing compounds (1983) , 1987 .
[40] P. Savage,et al. Asphaltene reaction pathways. 2. Pyrolysis of n-pentadecylbenzene , 1987 .
[41] M. Lewan. Evaluation of petroleum generation by hydrous phrolysis experimentation , 1985, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.
[42] G. Scacchi,et al. Demonstrating Self-Acceleration or Self-Inhibition Phenomena in Chemical Reactions: An Experiment in Alkane Pyrolysis. , 1980 .
[43] P. Hatcher,et al. Reaction kinetics and n-alkane product profiles from the thermal degradation of 13C-labeled n-C25 in two dissimilar oils as determined by SIM/GC/MS , 1998 .
[44] R. L. Braun,et al. Unraveling the kinetics of petroleum destruction by using 1,2-13C isotopically labeled dopants , 1995 .
[45] L. Mansuy,et al. 閉込め熱分解による石炭の人工成熟における反応媒質の重要性 2 水及び極性化合物 , 1995 .
[46] D. Ross. Comments on the source of petroleum hydrocarbons in hydrous pyrolysis , 1992 .
[47] S. Killops,et al. Polycyclic aromatic hydrocarbons of pyrolytic origin in ancient sediments : evidence for Jurassic vegetation fires , 1992 .
[48] F. Dominé. High pressure pyrolysis of n-hexane, 2, 4-dimethylpentane and 1-phenylbutane. Is pressure an important geochemical parameter? , 1991 .
[49] R. J. Kee,et al. Chemkin-II : A Fortran Chemical Kinetics Package for the Analysis of Gas Phase Chemical Kinetics , 1991 .
[50] F. Dominé. Kinetics of hexane pyrolysis at very high pressures. 1. Experimental study , 1989 .
[51] J. Smith,et al. Hydrous pyrolysis of model compounds , 1989 .
[52] P. Ungerer,et al. Kinetic modelling of oil cracking , 1988 .
[53] O. Weres,et al. Hydrous pyrolysis of alkanes, alkenes, alcohols and ethers , 1988 .
[54] Qin Kuangzong. Thermal depolymerization of kerogen and formation of immature oil , 1988 .
[55] T. Hoering. Thermal reactions of kerogen with added water, heavy water and pure organic substances , 1984 .