Кинетическое моделирование непромотированного и промотированного воспламенения горючих газов
Диссертация
Наряду с огромными успехами в моделировании механизмов окисления отдельных углеводородов отчетливо видны и трудности, которые необходимо разрешить, прежде чем двигаться дальше. Как правило, составление априорных схем производится с целью решения конфетной, можно сказать, довольно узкой задачи: количественного описания собственных экспериментов. Большой разброс в величинах констант скорости… Читать ещё >
Список литературы
- Семенов Н.Н. О некоторых проблемах химической кинетики и реакционной способности. — М.: Изд-во АН СССР, 1958. 686с.
- Зельдович Я.Б., Баренблатт Г. И., Либрович В. Б., Михвизладзе Г. М. Математическая теория горения и взрыва. М.: Наука, 1980. 478с.
- Кондратьев В.Н. Константы скорости газофазных реакций. Справочник. М.: Наука, 1970 с. 350.
- Baulch D.L., Drysdale D.D., Horne D.G., Loyd А.С. Evaluated kinetic data for high temperature reactions. London: Butter-worths, 1972, v.1- p.433. 1976, v.11.
- Westley P. Table of recommended rate constants for chemical reactions occuring in combustion. U.S.A. Nat.Bur. of Standarts, 1980, v.67, p.110.
- Enikolopian N.S. Kinetics and mechanism of methane oxidation. -Seventh Symposium (International) on Combustion, The Combustion Institute, 1959, p.157−164.
- Варданян И.А., Ян С., Налбандян А. Б. Математическое моделирование реакции термического окисления метана. Материалы У1 Всесоюзного симпозиума по горению и взрыву.: Алма-Ата, изд-во Черноголовка, 1980, с.66−69.
- Штерн В.Я. Механизм окисления углеводородов в газовой фазе. -М.: Изд-во АН СССР, I960, с. 275.
- Басевич В.Я., Когарко С. М., Нейгауз М. Г. Механизм окисления метана. Сообщение 4. Низкотемпературное окисление. Изв. АН СССР, сер.хим., 1976, с.42−47.
- Coward Н. Б1., Dixon В.Н. Ignition temperature of Gases. Concentric Tube Experiments. J. Chem. Soc., 1934, p.1382−1406.
- Bone W.A., Gardner 1.Б. Comparative Studies of Slow Combustion of methane, methyl alchohol, formaldehyde and formic acid. -Proc. Roy. Soc., 1936, p.297−329.
- Kozlov G.I. On high-temperature oxidation of methane. -Seventh Symposium (International) on Combustion, The combustion Institute, 1959, p.142−149.
- Mullins B.P. Studies on the spontaneous ignition of fuels injected into a hot air stream. IY. Ignition delay measurements on some gaseous fuels at atmospheric and reduced static pressures. Fuel, 1953, v.32, N 3, p.343−354.
- Benedek P., Laszlo A., Nemeth A., Vaszi P. Some kinetical cheracteristics of self-ignition in hydrocarbon-rich mixtures.-Hung. J. Ind. Chem., 1981, v.9, p.125−136.
- Skinner G.B., Ruehrwein. Shock tube studies on the pyrolysis and oxidation of methane. J. Phys. Chem., 1959, v.63, N 10, p.1736−1742.
- Kistiakowsky G.B., Richard L.W. Emission of vacuum ultraviolet radiation from the acetylene-oxygen and the methane-oxygen reactions in shock waves. J. Chem. Phys., 1962, v.36, N 7, p.1707−1714.
- Asaba Т., Yoneda K., Kakihara N., Hikita T. Shock-tube study of ignition of methane-oxygen mixtures. Ninth Symposium (Intern.) on Combustion, The Combustion Institute, 1963, p. 193−200.
- Miyama H., Takeyama T. Mechanism of methane oxidation in shock waves. J. Chem. Phys., 1964, v.40, N 7, p.2049−2051.
- Glass G.P., Kistiakowsky G.B., Michael I.V., Niki H. The oxidation reactions of acetylene and methane. Tenth Symposium (Intern.) on Combustion, The Combustion Institute, 1965, p. 513−519.
- Miyama H., Takeyama Т. Kinetics of methane oxidation in shock waves. Bull. Chem. Soc. Japan, 1965, v.38, N 1, p.37−42.
- Воеводский В.В., Солоухин Р. И. 0 механизме высокотемпературного окисления метана в ударных волнах. ДАН СССР, 1965, т.161, № 5, C. III8-II20.
- Soloukhin R.I. Quasi-stationary reaction zone in gaseous detonation. Eleventh Symposium (Intern.) on Combustion, The Combustion Institute, 1967, p.671−676.
- Bowman C.T., Seery D.I. Chemiluminescence in the high-temperature oxidation of methane. Combust, and Flame, 1968, v. 12,1. N 6, p.611−614.
- Higgin R.M.R., Alan Williams. A shock-tube investigation of the ignition of lean methane and butane mixtures with oxygen.- Tweelth Symposium (Intern.) on Combustion, The Combustion Institute, 1969, p.579−587.
- Bowman C.T. An experimental and analytical investigation of the high-temperature oxidation mechanisms of hydrocarbon fuels.- Comb. Sci. and Technology, 1970, v.2, N 2−3, p.161−170.
- Seery D.J., Bowman C. T, An experimental and analytical study of methane oxidation behind shock waves. Combust. Flame, 1970, v.14, N 1, p.37−47.
- Burcat A., Scheller K., Lifshitz A. Shock-tube investigation of comparative ignition delay times for C^-C^ alkanes. Combust.
- Flame, 1971, v.16, Б 1, p.29−33.
- Lifshitz A., Scheller K., Burcat A., Skinner G.B. Shock-tube investigation of ignition in methane-oxygen-argon mixtures. -Combust. Flame, 1971, v.16, N 3, p.311−321.
- Skinner G.B., Lifshitz A., Scheller K., Burcat A. Kinetics of methane oxidation. J. Chem. Phys., 1972, v.56, N 8, p.3853−3861.
- Cooke D.P., Alan Williams. Shock-tube studies of methane and ethane oxidation. Combust. Flame, 1975, v.24, p.245−256.
- Tsuboi Т., Wagner H.G. Homogeneous thermal oxidation of methane in reflected shock waves. Fifteenth Symposium (Intern.) on Combustion, The Combustion Institute, 1975, p. 883−890.
- Dorko E.A., Bass D.M., Crossley R.W., Scheller. Shock-tube investigation of ignition in methane-oxygen-nitrogen dioxideargon mixtures. Combust. Flame, 1975, v.24* p.173−180.
- Zollen D.M., Witting S.L.K. Effects of nitrogen on the shock tube induced ignition of methane. Proc. of the tenth (Intern.) Symposium on Shock tubes and Waves, Tokio, 1975, p.64O-646.
- Grillo A., Slack M.W. Shock tube study of ignition delay times in methane-oxygen-nitrogen-argon mixtures. Combust. Flame, 1976, v.27, p.377−381.
- Heffington W.M., Parks G.E., Sullzmann K.G.P., Penner S.S. Studies of methane-oxidation kinetics. Sixteenth Symposium (Intern.) on Combust. The Combustion Institute, 1977, p.997−1010.
- White D.R. Shock tube studies of nitrogen vibrational relaxation and methane oxidation. Report S-70−1054, Aerospace Research Labs., Ohio,/ссылка из работы 35/.
- Benedek P., Laszlo A., Nemeth A., Vaczi P. Mathematical modelling of ignition methane. Hungar. J. of Industr. Chem., 1977, v.5, p.133−144.
- Hidaka Y., Nagayama M., Suga M. The spplication of quadrupole mass spectrometer to a study of methane oxidation in shock waves. Bull. Chem. Soc. Japan, 1978, v.51, N 6, p. 16591.664.
- Eubank C.S., Rabinowitz M.I., Gardiner N.C.Jr., Zellner R. E, Shock-initiated ignition of natural gas-air mixtures. -Eighteenth Symposium (Intern.) on Combustion^ The Combustion Institute, 1981, p.1767−1773.
- Bowman C.T. Non-equilibrium radical concentrations in shock-initiated methane oxidation, Fifteenth Symposium (Intern.) on Combustion, The Combustion Institute, 1975, p.869−881.
- Tsuboi T. Mechanism for the homogeneous Thermal oxidation of methane in the gasphase. Jpn. J. Appl. Phys., 1976, v. 15, N 1, p.159−168.
- Engleman V.S. Survey and evaluation of kinetic data on reactions in methane (air combustion). Report EPA-600/2−76−003, 1976.
- Olson D.B., Gardiner W.C. An evaluation of methane combustion mechanism. J. Phys. Chem., 1977, v.81, N 25, p.2514−2519.
- Olson D.В., Gardiner W.C.Jr. Combustion of methane in fuel rich mixtures. Combust. Flame, 1978, v.32, p.151−161.
- Creighton I.R. Some general principles obtained from numerical studies of methane combustion. J. Phys. Chem, 1977, v, 81, N 25, p.2520−2526.
- Westbrook C.K., Creidhton I.R., Lund C. , Dryer F.L. A numerical model of chemical kinetics of combustion in a turbulent flow reactor. J. Phys. Chem., 1977, v.81, N 25, p.2542−2554.
- Dryer F.L., Glassman I. High temperature oxidation of CO and CH^. Fourteenth Symposium (Intern.) on Combustion. The Combustion Institute, Pittsburgh, 1973, p.987−1003.
- Westbrook C.K., Lila L.C. Chemical kinetics and thermochemi-cal data for combustion applications. Lawrence Livermore Laboratory, UCID-17 833, 1981, Rev. I, 40p.
- Westbrook C.K. Analytical study of the shock tube ignition of mixtures of methane and ethane. Comb. Sci. and Techn., 1979, v.20, p.5−17.
- Westbrook C.K. Chemical kinetics of hydrocarbon oxidation in gaseous detonation. Combust, and Flame, 1982, v.46, p.191−210.
- Creighton I.R., Lund M.C. Modeling study of flame structure in low-pressure, laminar, pre-mixed methane flames. Proc. 10th Materials Research Symp., National Bureau of Standarts Special Publication, 1979, p.1223−1244.
- Sommer H.T., Adams W. Stable species concentration of a turbulent premixed methane-air flame. Combust, and Flame, 1983, v.49, p.1−12.
- Marteney P.I. Analytical study of the kinetics of formation of nitrigen oxides in hydrocarbon-air flames. Comb. Sci and Techn., 1970, v.1, p.461−467.
- Heap M.P., Tyson T.I., Cichanowicz I.E., Gershman R., Kan C.I. Enviromental aspects of low BTU-gas combustion. Sixteenth Symposium (Intern.) on Combustion. The Combustion Institute, 1977, p.535−545.
- Orr C.R. Combustion of hydrocarbons behind shock waves. — Ninth Symposium (Intern.) on Combustion. N.Y.: Academic Press, 1963, p.1034−1045.
- Macpherson K.M.T., Michael P.I., Smith M.I. The pressure and temperature dependence of the rate constant for methyl radical recombination. Chem. Phys. Lett., 1983, v.94, N 4, p.430−433.
- Olson D.B., Tanrawa Т., Gardiner W.C.Jr. Thermal decomposition of Ethane. Int. J. Chem. Kinet., 1979, v. II, U 1, p.23−44.
- Burcat A., Grossley R.W., Scheller K., Skinner G.B. Shock-tube investigation of ignition in Ethane-oxygen-argon mixtures. Combust. Flame, 1972, v.18, p.115−123.
- Hoare D.H. Role of OH and HO2 radicals in the slow combustion of mixtures of methane, ethane and ethylene. Transactions of the Faraday Soc., 1969, v.65, N 5, p.1325−1333.
- Gay I.D., Glass G.P., Kern R.D., Kistiakowsky G.B. Ethylene-oxygene reaction in shock waves. J. Chem. Phys., 1967, v.47, p.313−320.
- Homer I#B#J Kistiakowsky G.B. Oxidation and pyrolysis of ethylene in shock waves. J. Chem. Phys., 1967, v.47, p.5290−5295.
- Suzuki M., Moriwaki Т., Okazaki S., Okuda Т., Tanzawa T, Oxidation of ethylene in shoch tube. Astronautica Acta: Pergamon press, 1973, v.18, p.359−365.
- Baker I.A., Skinner G.B. Shock-tube studies on the ignition of ethylene-oxygen-argon mixtures. Combust. Flame, 1972, v. 19, p.347−350.
- Hidaka Y., Kataoka Т., Suga M. Shock-tube investigation of ignition in ethylene-oxygen-argon mixtures. Bull. Chem. Soc. Japan, 1974, v.47, N 9, p.2166−2170.
- Зимонт В.JI., Трушин Ю. М. Задержка воспламенения углеводородных топлив при высоких температурах. ФГВ, 1967, т. З, с.51−56.
- Iachimonski C.I. An experimental and analytical study of acetylene and ethylene, oxidation behind shock waves. -Combust. Flame, 1977, v.29, p.55−56.
- Just Th., Roth P., Damm R. Production of hydrogene atoms during the thermal dissociation of ethylene between 1700 and 2200 K. -Sixteenth Symposium (Intern.) on Combustion. The Combustion Institute, Pittsburgh, 1977, p.961−968.
- Westenberg A.A., de Haas IT. Absolute measurements of the O+C2H^ rate coefficient. Twelfth Symposium (Intern.) on Combustion. The Combustion Institute, Pittsburgh, 1969, p.289−298.
- Levy J.M. Higher hydrocarbon Combustion. I. Primary process in fuel~rich acetylene combustion. — Combust. Flame, 1982, v.46, p.7−16.
- Myers B.F., Bartle E.R. Reaction and ignition delay times in oxidation of propane. AIAA Journal, 1969, v.7, U 10, p.1862−1870.
- Burcat A., Lifshitz A., Scheller K., Skinner G.B. Shock-tube investigation in propane-oxygen-argon mixtures. ARL 70−0021, February 1970, 25 p.
- McLain A.G., Jachimowski C.J. Chemical kinetic modeling of propane oxidation behind shock waves. NASA TN D-8501, 1977.
- Coats C.M., Williams A. Investigation of the ignition and combustion of n-heptane-oxygen mixtures. Seventeenth Symposium (Intern.) on Combustion. The Combustion Institute, 1979, p.611−620.
- Cathonnet M., Boettner J.C., James H. Experimental study and numerical modeling of high temperature oxidation of prop^iie and n-butane. Eighteenth Symposium (Intern.) on Combustion. The Combustion Institute, 1981, p.903−913.
- Warnatz I. Flame velocity and structure of laminar hydrocarbon-air flames. 7th Int. Colloq. Gasdyn. Explosion and React. Syst., Gottingen-N.Y., 1981, p.501−521.
- Westbrook C.K., Dryer F.L. Chemical kinetics and modeling of combustion processes. Eighteenth Symposium (Intern.) on Combustion. The Combustion Institute, 1981, p.749−767.
- Димитров В. Кинетика и механизм превращений в быстропротекающих процессах. Докт. диссертация, Новосибирск, 1980.
- Westbrook C.K. Hydrogen oxidation kinetics in gaseous detonation. Combust. Sci. and Technology, 1982, v.29, p.67−81.
- Brokaw R.S. Ignition kinetics of the carbon monooxide-oxygen reaction. Eleventh Symposium (Intern.) on Combustion. The Combustion Institute, Pittsburgh, 1967, p.1063−1072.
- Schott G.L. Further studies of exponential branching rates in reflected-shock heated nonstoichiometric H2-CO-O2 systems. -Combust. Flame, 1973, v.21, p.357−370.
- Abdalla A.Y., Bradley D., Chin S.B., Choi Lam. Global reaction chemes for hydrocarbon oxidation. The second (Intern.) specialists meeting of the Combustion Institute on oxidation. Abstracts of papers, Budapest, 1982, p.82.
- Hautman D.I., Dryer F.L., Schug K.P., Glassman I. The combustion of chain hydrocarbons. — Combust. Sci. Technol., 1981, v.25, p.219−230.
- Dean A.M., Johnson R.L., Steiner D.C. Shock-tube studies of formaldehyde oxidation. Combust. Flame, 1980, v.37, p.41−62.
- Bowman C.T. A shock-tube investigation of the high-temperature oxidation of methanol. Combust. Flame, 1975, v.25, p.343−354.
- Natarajan K., Braskaran K.A. An experimental and analytical study of methanol ignition behind shock waves. — Combust. Flame, 1981, v.42, p.61−76.
- Warntaz I. Hydrocarbon oxidation at high temperature. — Ber. Bunsenges Chem., 1983, v.87, p.1008−1022.
- White I.N., Gardiner W.C., Jr. An evaluation of methane combustion mechanisms. II. Comparison of model predictions with experimental data from shock initiated combustion of
- C2H4, C2H6. J. of Phys. Chem., 1979, v.83, p.562−568.
- Westenberg A.A., Fristrom R.M. Methane-oxygen flames. IV. Chemical kinetics consideration. J. Phys. Chem., 1961, v.65,p.591−601.
- Dean A.M., Kistiakowsky G.B. Oxidation of carbon monooxide/me-thane mixtures in shock waves. J. Chem. Phys., 1971, v.54,1. N 4, p.1718−1725.
- Izod T.P., Kistiakowski G.B., Matsude S. Oxidation of carbon monoxide mixtures with added ethane or azomethane studied in incidient shock waves. J. Chem. Phys., 1971, v.55, N 9, p.4425−4432.
- Clark T.C., Izod T.P., Matsude S. Oxidation of methyl radical studied in reflected shock waves using the time-of—flight mass spectrometer. J. Chem. Phys., 1971, v.55, N 9, p.4644−4647.
- Tabayashi K., Bauer S.H. The early stages of pyrolysis and oxidation of methane. Combust. Flame, 1979, v.34, p.63−83.- зоз 99″ Barnard I. A, Cohen A, Reaction of methyl radicals with oxygen.- Trans. Par. Soc., 1968, v.64, p.396−404.
- Washida N. Reaction of methyl radical with 0(3P), 02 and N0.- J. Chem, Phys., 1980, v.73, P-1665−1672.
- Baldwin R"R", Hopkins D.E., И orris A, C, Walker R,.W, The addition of methane to slowly reacting hydrogen-oxygen mixtures: reactions of methyl radicals. Combust. Flame, 1970, v, 15, N 1, p.33−46.
- Plumb 1. С", Ryan K, R, Kinetics of the reactions of CH^ with 0(3P) and 02 at 295 K, Int. J. Chem, Kinet., 1982, v. 14, N 8, p.861−874.
- Смирнов В.Н. Распад летучих металлосодержащих соединений и реакции продуктов их распада. Диссерт. канд. физ.-мат. наук, М. 1979.
- Baldwin А, С., Golden D"M, Reactions of methyl radicals of importance in combustion systems. Chem, Phys, Lett., 1978, v.55, p.350,
- Braskaran K.A., Prank P, Just Th, High temperature methyl radicals reactions with atomic and molecular oxygen. Proc. of 12th Intern, Symposium on Shock tubes and waves. Jerusalem, 1980, p, 503−512.
- Smoot L.D., Hecker W, C., Williams G, A, Prediction of propagating methane-air flames, Combust. Plame, 1976, v.26, p, 323−342.
- Benson S, N. Some surrent views on the mechanism of free radical oxidation, Adv. Chem, Ser., 1968, v, 76, p.143−154.
- Тейтельбойм M.A., Романович JI.Б., Веденеев В. И. Расчет по теории РРКМ некоторых каналов взаимодействия метилового радикала с кислородом. Кинетика и катализ, 1978, т.19, с.1399−1404.
- Groce A., Troe I. Thermal dissociation of hydrocarbon radicals. Colloque Intern. Berthelot-Vieille-Mallard-Le Ghatelier, Bordeaux-Prance, 1981, v.11, p.321−324.
- Peeters I, Smets B. Reactions of ethyl radicals in ethane-oxygen flames. Colloque Intern. Berthelot-Vieille-Mallard-Le Ghatelier, Bordeaux-Prance, 1981, v. II, p.307−312.
- Hase W.L., Schiegel H.B. Resoluyion of paradox concerning the forward and reverse rate constants for C2H^=H+C2H^. -J. Phys. Chem., 1982, v.86, N 20, p.3901−3904.
- Norish R.G., Griffiths I.G.A. The combustion of hydrogen and oxygen photosensitised by nitrogen peroxide. Proc, Roy. Soc., A, 1933, v. 139, p.147−152.
- Kane G. P, The Influence of nitrogen peroxides on the two-stage ignition of hydrocarbons, Proc. Roy. Soc. A, 1939, v.17.1, p, 251−269.
- Chamberlain G. H, N, Walsh A.D. Processes in the vapour phase oxidation of ether. Third Symposium (Intern.) on Combustion, 1949, p.368−374.
- Crossely R.W., Dorko E.A., Scheller K., Burcat A, The effect of higher alkanes on the ignition of CH^/^/Ar mixtures in shock waves, Combust,. Flame, 1972, v.19, p.373−378,.
- Cheng R. K, Oppenheim A.K. Strong ignition limits for methane-hydrogen mixtures, Colloque Intern. Berthelot-Vieille-Mallard-Le Chatelier, Bordeaux-France, 1981, v. II, p.342−348.
- Eubank C.S., Gardiner W.C.Jr, Simmie I.M. Acceleration of methane-air ignition by hydrocarbon additives,. Colloque Intern, Berthelot-Vieille-Mallard-Le Chatelier, Bordeaux-France, 1981, v. II, p.336−341.
- Slack M, Grillo A, Investigation of Hydrogen-air ignition sensitized by nitric oxide and by nitrogen dioxide, NASA CR—2896, 1977, N 78−10 233,.
- Строкин B.H., Хайлов B.M. Влияние окиси азота на задержку воспламенения смесей водорода с воздухом. Физика горения и взрыва, 1974, т. Ю, с.930−936.
- Азатян В.В., Арутюнян Г. А. Промоторование окисления водорода с помощью цепного горения силана. Изв. АН СССР, сер. хим., 1982, № 3, с.702−704.
- Trush В, A, The homogenity of explosions initiated by flash photolysis. Proc, Roy. Soc, A, 1955, v.233, p.147−151.
- Wadsworth I. Use of flash photolysis to initiate of detonation in gaseous mixtures, Nature, 1961, v.190, p, 623−625,
- Norrish B.G.W, Porter G, Thrush B.A. Studies of the explosive combustion of hydrocarbons by kinetic spectroscopy, -Proc. Roy. Soc. A, 1955, v.227, p.423−433″
- Erhard K.H.L, Norrish R, G, W. Studies of knock and antiknock by kinetic spectroscopy. Proc, Roy,. Soc, A, 1956, v, 234, p.178−189.129″ Scheer M, D, Taylor H.A. The azomethane induced oxidation of propane* J. Chem. Phys, 1952, v. 20, p.653−957.
- Siminski V, I, Wright F, I, The effect of homogeneous additives on the autoignition of hydrocarbon fuels, AIAA, 1972, v"71, p.11−18.
- Басевич В.Я. Промотирование процессов горения. Диссерт.докт. техн. наук, М.: 1969.
- Вишневский Я.Е., Гуссак Л. А., Самойлов И. Б. О промотировании горения углеводородо-воздушных смесей. ДАН СССР, 1977, т.232, с. ЗбЗ-Збб.
- Коганова З.И., Новожилов Б. А. О кинетике разветвленно-цепных реакций в присутствии ингибиторов. Кинетика и катализ, 1980, т.21, вып. б, с.1373−1378.
- Barnard I. A#, Harwood В. A, Physical factors in the study of the spontaneous ignition of hydrocarbons in static systems, Combust. Flame, 1974, v. 22, p.35−42.
- Gray P., Iones D. T, MacKinven R, Thermal effects accompanying spontaneous ignition in gases. 4, The decomposition of diethyl peroxide in a cylindrical vessel and the effect of dilutents on self-heating, Proc. Roy, Soc" A, 1971, v.325, p.175−196.
- Гейдон А., Герл И. Ударная труба в химической физике высоких температур. М.: Мир, 1966, 427с.
- Strehlow R, Shock-tube studies in exothermic systems, Phys. of fluids supplement, 1969, p.1−96,
- Bertin I. I, Ehrhardt W, C., Gardiner W.C., Tanzame T. Study of improved models for laminar shock tube boundary layers in chemically reactive test gas., Proc, 10th Intern, Shock Tube Symposium, Kyoto, 1975, p.595−604,
- Skinner G, B, The importance of v/all cooling in single-pulse • studies, Int* J, Chem, Kin", 1977, v. IX, p.863−865,
- НО. Bradley I.N., Capey W. D, Farajii P. The effect of reaction exothermicity on shock propagation. Proc,. 12th Intern. Symposium on shock tubes and waves, Jerusalem: Magnes press, 1980, p.524−533.
- Борисов А.А., Скачков Г. И., Заманский В. М., Корнелия Костеа, Лисянский В.В. Применимость методики «закалки» для изучения кинетики цепных реакций. Revue Roumaine de chimie, 1979, v.24, N 6, p.789−797.
- Bowman C.T., Hanson R. K, Shock tube measurements of rate coefficients of elementary gas reactions. J. Phys. Chem., 1979, v.83, p.759−763.
- Франк-Каменецкий Д. А. Диффузия и теплопередача в химической кинетике. 2ое изд. М.: Наука, 1967, 491с.
- Борисов А.А., Когарко С. М., Скачков Г. И. Самовоспламенение в системе с неразветвленными цепными реакциями. ДАН СССР, 1965, т.162, № 2, с.366−369.
- Борисов А.А., Скачков Г. И. Цепочечно-тепловое самовоспламенение в системах с энергетическими разветвлениями. ДАН СССР, 1965, т.163, с.129−131.
- Борисов А.А., Когарко С. М., Скачков Г. И. Самовоспламенение в смесях метана с хлором. Научно-технические проблемы горения и взрыва, Новосибирск, 1965, № I, с.15−22.
- Мержанов А.Г., Григорьев Ю. М. Аналитическое решение простейшей нестационарной задачи о неадиабатическом тепловом взрыве. ДАН СССР, 1967, т.176, № 16, с.1344−1347.
- Азатян В.В., Гонтковская В. Т., Мержанов А. Г. Об условиях возникновения теплового взрыва при протекании разветвленно-цепных реакций. ФГВ, 1973, № 2, с.163−168.
- Абрамов В.Г., Ваганов Д. А., Самойленко Н. Г. О критических условиях теплового взрыва в системах с последовательными реакциями. ДАН СССР, 1975, т.224, № 2, с.351−354.
- Абрамов В.Г., Ваганов Д. А., Самойленко Н. Г. О критических условиях теплового взрыва в системах с параллельными реакциями. ДАН СССР, 1975, т.224, № I, сЛ16−120.
- Борисов А.А., Лисянский В. В., Скачков Г. И., Трошин К. Я. Критерии сравнения экспериментальных и рассчитанных задержек воспламенения. ХФ, 1984, т. З, № 3, с.420−429.
- Зельдович Я.Б., Яковлев В. И. Тепловое самовоспламенение закиси азота. ДАН СССР, 1938, т.19, с. 699.
- Johnston H.S. Interpretation of the data on the thermal decomposition of nitrous oxide, J. Chem, Phys, 1951, v, 19, p.663−667.
- Кузнецов H.M., Заслонко И. С., Петров Ю. П. Термических распад N20. Черноголовка: Изд. ОНХФ АН СССР, 1979, с. 33.
- Olshewski Н.А., Troe I, Wagner H, G, Niederdruckbereich und Hochdruckbereich des unimolekularen NgO-Zerfalls. Ber, Bunnsengess, Physik. Chem., 1966, Bd.70, s.450−457.
- Борисов А.А. Термическое разложение Nr>0 при высоких температурах. Кинетика и катализ, 1968, т.9, с.482−494.
- Борисов А.А., Скачков Г. И., Огуряев А. А. Воспламенение смесей Nr>0 + ЫО при высокой температуре. Кинетика и катализ, 1973, т.14, № 2, с.294−300.
- Sulsmann K, G. P, Kline I, M., Penner S.S. Shock-tube studies of Ng0-decomposition, Proc, 12th Intern, Symposium on Shock Tubes and Waves, Jerusalem, 1979, p.503−512,
- Pishburne E. S, Edse R, Shock-tube study of nitrous oxide decomposition, J. Chem. Phys, 1964, v, 41, p.1297−1304.
- Fishburne E.S., Edse R, Reaction between atomic oxygen and nitrous oxyde. J, Chem. Phys, 1966, v, 44, p.515−520.
- Barton S. C, Dove I.E. Mass spectrometric studies of chemical reactions in shock waves: the thermal decomposition of nitrous oxide. Canad. J. Chem, 1969, v.47, p.521−538.
- Борисов А.А., Скачков Г. И. Самовоспламенение закиси азота. Кинетика и катализ, 1972, т.13, № I, с.42−47*
- Gutman D, Belford R, L, Hay A, I, Panurov E, Shock wave studies with quadrupole mass filter. II. The thermal decomposition of nitrous oxide. J. Phys. Chem., 1966, v, 70, p.1793−1800.
- Солоухин Р.И. О кинетике термического разложения NgO в ударных волнах. ДАН СССР, 1972, т.207, № 4, с.912−915.
- ВаЪег S.C., Dean A.M. NgO dissociation behind reflected shock waves, Int. J. Chem. Kinet, 1975, v, 7, p.381−393.
- Lipkea W.H., Milks D., Matula R. Nitrous oxide decomposition and its reaction with atomic oxygen. Combust, Sci, and Techn., 1973, v, 6, p.257−267.
- Dove I.E., Nip W.S., Teitelbaum H, The vibrational relaxation and pyrolysis of shock heated nitrous oxide, The fifteenth Intern. Symposium on Combustion, Pittsburgh, The Combustion Institute, 1975, p.903−916,
- Hunter E. The thermal decomposition of nitrous oxide at pressures up to forty atmospheres. Proc, Roy, Soc., A, 1934, p.144,386−412.
- Lindars F.I., Hinshelwood C.N. The thermal decomposition of nitrous oxide, I, Secondary catalytic and surface effects. 2. Influence of added gases and a theory of the kinetic mechanism. Proc. Roy. Soc. A-231, 1955, p.p. 162−177, 178 197.
- Troe I. Predictive possibilities of unmolecular rate theory. J. Phys. Chem., 1979, v.83, N 1, p.114−126.
- Coleman R.I., Holliday M.G., Reuden B.B. Oxidation of carbon monoxide by nitrous oxide, Text of contributed papers tobe presented at the Gas Kinetics Symp., Szeged, Hungary, 1969, p.429−442,
- Destrian М# Decomposition explosive de l’oxyde aroteux. Effet de la dilution du reactif. Bull. Soc. Chim. Prance, 1971, p.2848.
- Физическая химия быстрых реакций. М.: Мир, 19'7б, 394с.
- Nagasako N., Volmer. Der thermische zerfall des stickoxyduls swischen I und 10 atm. Z. Physik. Chem. (B), 1930, Bd.10, s# 41 4−418.
- Volmer M., Froehlich H. Der thermische Zerfall des Stickoxyduls. Z. Physik. Chem. (B), 1932, Bd.19, s.85−88.
- Volmer M., Froehlich H. Der thermische Zerfall des Stickoxyduls. Wirkung der inerten Fremdgase He, Ar, Og. Z. Physik. Chem.(B), 1932, Bd.19, s.89−96.
- Volmer M., Bogdan M. Stossaktivirung und homogene Katalyse beim NgO-Zerfall in Fremdgases. Z.Physik. Chem., 1933, Bd. 21, s.257−265.
- Lewis R.M., Hinshelwood C.N. The thermal decomposition of nitrous oxide. Proc. Roy. Soc., A, 1938, v.168, p#441−454.
- Musgrave P.P., Hinshelwood C.N. The thermal decomposition of nitrous oxide and its catalysis by nitric oxide. Proc. Roy. Soc., A, 1932, v.135, p.23−39.
- Заслонко И.С., Лосев А. С., Мозжухин Е. В., Мукосеев Ю. К. Термический распад NgO в атмосфере Ar, Не, N2 и со. Кинетика и катализ, 1980, т.21, № 2, с.311−315.
- Kaufman P., Gerri N.I., Bowman R.E. Role of nitric oxide in the thermal decomposition of nitrous oxide. J. Chem. Phys., 1956, v.25, p.106−115.
- Camac M., Peinberg R. Formation of N0 in shock-reated air. Eleventh Symposium (Intern.) on Combustion, Pittsburgh. The Combustion Institute, 1967, p.137−144.
- Kaufman P., Kelso I. Reaction between nitric and nitrous oxide. J. Chem. Phys., 1955, v.23, p.602−603.
- Bonnefois J., Destriau M. Decomposition explosive de l’oxyde azoteux, modifications des transfers de chaleur. Bull. Soc. Chim. Prance, 1970, v.17, p.2113−2118.
- Melville H.W. The kinetics of the reaction between hydrogen and nitrous oxide. Effect of oxygen. Proc. Roy. Soc. A, 1934, v.146, p.737−775.
- Henrici H., Bauer S.H. Kinetics of the nitrous oxide-hydrogen reaction. J. Chem. Phys., 1969, v.50, p.1333−1342.
- Soloukhin R.I., Van Tiggelen P.I. Shock tube study of the induction lag in nitrous oxide-hydrogen systems. Bull. Soc. Chim. Eelgos, 1969, p.179−190.
- Baldwin R.R., Gettin A., Plaistowe I., Walker R.W. Reaction between hydrogen and nitrous oxide. J. Chem. Soc. Faraday Trans., 1975, v.1, p.71, 1265−1284.
- Caubet P., Dorthe G., Costes M., Destrian M., Caralp L. Kinetic and emission spectroscopic analysis on the combustion of hydrogen-dinitrogen oxide mixtures /Н2 xN20 (х"1)/. — J.Chem. Research (M), 1977, p.2470−2492.
- Alberts E.A., Hoyermann K., Schacke H., Schmatiko K.I., Wagner H.G. Absolute rate coefficients for the reaction of H-atoms with NgO. Fifteenth Symposium (Intern.) on Combustion. The Combustion Institute, 1975, p.765−773.
- Fenimore C.P., Iones G.W. Rate of reaction in hydrogen, nitrous oxide and in some other flames. J. Phys. Chem., 1959, v.63, p.1154−1158.
- Dean A. Shock-tube studies of the NgO/Ar and N20/H2/Ar ¦ systems. Int. J. Chem. Kinet., 1975, v. VIII, p.459−474.
- Druiranond L.I. Shock-iniated exothermic reactions. Austr. J. Chem., 1968, v.21, p.2631−2641.
- Борисов А.А., Заманский В. М., Скачков Г. И. Кинетика и механизм взаимодействия водорода с закисью азота. Кинетика и катализ, 1978, т.19, № I, с.38−45.
- Головичев В.И., Солоухин Р. И. К кинетике воспламенения смеси водорода и закиси азота в ударных волнах. ФГВ, 1975, т. П, с. 790.
- Борисов А.А., Заманский В. М., Скачков Г. И. Определение константы скорости реакции Н + Nr>0 NH + ЫО. Сб. «Кинетика химических реакций», Черноголовка, 1977.
- Smith Wm.H., Brzozowski I., Erman P. Lifetime studies of the NH-molecule: new predissociations, the dissociation energy and interstellar diatomic recombination. — J. Chem. Phys., 1976, v.64, p.4629−4633.
- Andersen W.R., Decker L.I., Kotlar A.I. Concentration profiles of ЖН and OH in stoichiometric CH^/NgO flame by lazer excited fluorescence and absorption. Combust. Flame, 1982, v.48, N 2, p.179−190.
- Fenimore C.P., Kelso I.R. The explosion of nitrous oxide-hydrogen mixtures. J. Amer. Chem. Soc., 1949, v.71, p. 3706−3709.
- Holliday M., Konben B. La reaction de l’hydrogene avec 1'oxyde azoteux, Bull. Soc. Chim. France, 1969, p.3087−3092.
- Борисов A.A., Заманский В. М., Крестинин А. В., Скачков Г. И. Определение констант скорости элементарных реакций в самовоспламеняющихся смесях закиси азота с воздухом. Сб."Кинетика физико-химических реакций", Черноголовка, 1977, с. 139.
- Павлов Б.В., Повзнер А. Я. Ж. Вычислит. Матем. и Мат. Физ., 1973, т.13, № 4, с.1056−1062.
- Fenimore G.P. Destruction of, НО Ъу in lean burnt gas.- Combust. Flame, '1980, v.37, N 3, p.245−250.
- Banna S.M., Brang M.C. Mixing and reaction of with N0 in combustion products. Combust. Flame, 1981, v.42, N 2, p.173−181.
- Holzrichter K., Wagner H.Gg. On the thermal decomposition of ammonia behind shock waves. Eighteenth Symposium (Intern.) on Combustion. The Combustion Institute, 1981, p.769−775.
- Dove I.E., Nip W.S. A shock-tube study of ammonia pyrolysis.- Canad. J. Chem., 1979, v.57, N 6, p.689−701.
- Yumura M., Asaba Т., Matsumoto. Thermal decomposition of ammonia in shock waves. Int. J. Chem. Kin., 1980, v.12, N 7, p.439−453.
- Bradley I.N., Graggs P. The reaction of hydrogen with nitric oxide at high temperature. Sixteenth Symposium (Intern.) on Combustion. The Combustion Institute, 1977, p.833−840.
- Duxbury I., Pratt N.H. A shock-tube study of N0 kinetics in the presence of E^ and fuel-N. Sixteenth Symposium (Intern.) on Combustion. The Combustion Institute, 1977, p.843−851.
- Drummond L.I. High temperature oxidation of ammonia. -Combust. Sci. and Tech., 1972, v.5, p.175−182.
- Roose T.R., Hanson R.K., Kruger C.H. A shock tube study of the decomposition of N0 in the presence of NH^. Eighteenth Symposium (Intern.) on Combustion. The Combustion Institute, 1981, p.853−860.
- Andrews D.G., Gray P. Combustion of ammonia supported by oxygen, nitrous oxide or nitric oxide. Laminar flame propagation at low pressure in binary mixtures. Combust. Flame, 1964, v, N 2, p.113—126.
- Gray P., McKiven R, Smith D, B, Combustion of hydrogen and hydrazine with nitrous oxide and nitric oxide: flame speeds and flammability limits of ternary mixtures at sub-atmospheric pressures. Combust. Flame, 1967, v. II, N 3, p.217−226.
- Poole D, R, Graven W.M. Kinetics of the reaction of ammonia and nitric oxide in the region of spontaneous ignition. -J. Amer. Chem. Soc., 1961, v.83, 1 2, p.283−286.
- Lyon R.K., Benn D. Kinetics of UO-KHyOg. Seventeenth Symposium (Intern.) on Combustion. The Combustion Institute, 1979, p.601−609.
- Salimian S, Hanson R.K. A kinetic study of N0 removal from combustion gases by injection of NH^-containing compounds.- Combust. Sci. and Tech., 1980, v.23, p.225−234.
- Azuhata S, Kaji R., Akimoto H., Hishinuma Y. Kinetics of the NH^-ITO-Og—HgOg reaction. Eighteenth Symposium (Intern.) on Combustion. The Combustion Institute, 1981, p.845−851.
- Солоухин P.И. Реакции горения, контролируемые термическим распадом NgO. XI Менделеевский съезд по общей и прикладной химии, М.: Наука, Реф. докл. и сообщ., 1975, № 3,сЛ46.
- Drummond L.I. Comments upon shock-initiated oxidation by nitrous oxide, Combust, Sci. and Tech., 1972, v.5, p.183−185.
- Hack W., Schacke H., Schroter M., Wagner G, Reaction rates of NHg-radicals with N0, N02, C2H2, CgH^ and other hydrocar-bones, — Seventeenth Symposium (Intern,) on Combustion, The Combustion Institute, 1979, p.505−512,
- Борисов А.А., Драгалова E.B., Заманский B.H., Лисянский В. В., Скачков Г. И. Самовоспламенение смесей аммиака с закисью азота.- Хим. Физ., 1984.
- Silver I, A., Kolb C.F. Kinetic measurements for the reaction of HH2-N0 over the temperature range 294−1215°K. J. Phys. Chem., 1982, v.86, p.3240−3246.
- Branch M.C., Kee R.I., Miller I.A. A theoretical investigation of mixing effects in the selective reduction of nitric oxide by ammonia. Combust. Sci. and Techn., 1982, v.29,p.147−157.
- Заслонко И.С. Мономолекулярные реакции в ударных волнах и энергообмен высоковозбужденных молекул. Диссерт. докт. физ.-мат. наук, Москва, ИХФАН, 1981.
- Кудрявцев Н.Н., Новиков С. С., Светличный И. Б. Исследование усиления излучения СО^-лазера в продуктах реакции окиси углерода с закисью азота. Ж. прикл.мех. и техн. физики, 1974,5, с.9−15.
- Bawn C.F.H. The oxidation of carbon monoxide by nitrous oxide. Trans. Faraday Soc., 1935, v.31, p.461−473.
- Lin M.C., Bauer S.H. Bimolecular reaction of NgO with CO and the recombination of 0 and CO as studied in a single-pulse shock tube. J. Chem. Phys., 1969, v.50, p.3377−3391.
- Milks D., Matula R. A. single-pulse shock-tube study of the reaction betv/een nitrous oxide and carbon monoxide. — Fourteenth Symposium (Intern.) on Combustion. The Combustion Institute, 1972, p.83−96.
- Солоухин P.И. О кинетике воспламенения при высокотемпературном окислении закисью азота в ударных волнах. ДАН СССР, 1970, т.194, с.143−146.
- Заслонко И.С., Лосев А. С., Мозжухин Е. В., Мукосеев Ю. К. Неравновесная реакция NgO и СО в ударных волнах. ФГВ, 1978, т.14, № 2, с.101−106.
- Заслонко И.С., Лосев А. С., Мозжухин Е. В., Мукосеев Ю. К. Ак-тивационный механизм обменной реакции между NgO и окисью углерода. Кинетика и катализ, 1979, т.20, № 6, с.1385−1390,
- Billing M.I.-, Noyes R.M. A model for explosions during carbon monoxide oxidation. Int. J. Chem. Kinet., 1979, v.11, p.821−841.
- Preund H., Palmer H.B. Shock-tube studies of the reaction of N02 with N02, S02 and CO. Int. J. Chem. Kinet., 1977, v.9, p.887−901.
- Atkinson R., Perry R.A., Pills I.N. Rate constants for the reaction of OH radicals with ethylene over the temperature range 299−425 K. J. Chem. Phys., 1977, v.66, p.1197−1201.
- Dorthe G., Destrian M. Study of the chemiluminescence occur-ing during the thermal decomposition of NgO with a rapid-scanning spectrometer. Fourteenth Symposium (Intern.) on Combustion. The Combustion Institute, 1973, p.343−352.
- Loirat H. Especes intermediates et transferts energetiquesintervenant au cours de la combustion du monoxyde de carbon avec l’oxygene ou l’oxyde nitreux.-These de Docteur Ingenieur, Bordeaux, 1977.
- Robinson P.L., Smith. E.J. The kinetics of the oxidation of methane by nitrous oxide. J. Chem. Soc., 1952, N 10, p. 3895−3904.
- Falkoner J.W., Hoare D.E., Overen R. The oxidation of methane by nitrous oxide. Combust. Flame, 1973, v.21, p.339−344.
- Drummond L.J. Shock induced reactions of methane with nitrous and nitric oxides. Bull. Chem. Soc. Japan, 1969, v.42, p. 285−302.
- Борисов А.А., Заманский B.M., Потмишил К., Скачков Г. И., Фо-теенков В.А. О механизме окисления метана закисью азота. -Кинетика и катализ, 1977, т.18, № 2, с.307−315.
- Fifer R.A. High temperature pyrolysis of methyl (and ethyl) nitrate. Seventeenth Symposium (Intern.) on Combustion. The Combustion Institute, 1979, p.587−598.
- Iensen D.E., Iones G.A. Reaction rate coefficients for flame calculations. Combust. Flame, 1978, v.32, p.1−34. .
- Adachi H., Basso James D.G.L. A quantitative study of alkyl radical reactions by kinetic spectroscopy. Int. J. Chem. Kinet., 1979, v. II, p.995−1007.
- Hoyemann K., Wagner H.Gg. Elementary reactions in the highly temperature oxidation of hydrocarbons. Oxid. Communications, 1982, v.2, N 3−4, p.259−290.
- Kenwright R., Trenwith A.B. The kinetics of the oxidation of ethane by nitrous oxide. J. Chem. Soc., 1959, N 6, p.2079−2082.
- Roth P., Just Th. Atom-resonanzabsorptionsmessungen thermi-schen Zerfall von Methan hinter Stoswellen. Ber. Bunsenges. Phys. Chem., 1975, Bd.79, s.682−689.
- Борисов А.А., Драгалова Е. В., Заманский В. М., Лисянский В. В., Скачков Г. И. Механизм воспламенения смесей СН^-О^ в присутствии добавок N^O. Кинетика и катализ, 1981, т.22, № 2, с. 305−311.
- Batt L. The gas-phase decomposition of alkoxy radicals. -Int. J. Chem. Kinet., 1979, v. II, p.977−992.
- Oldenhove de Guertchin L., Vandooren I., Van Tiggelen P.I. Radical reactions in formaldehyde flames. Bull. Soc. Chim. Belg., 1983, v. 92, N 6, p.663−670.
- Dove I.E., Warnatz I. Calculation of burning velocity and flame structure in methanol-air mixtures. Ber. Bunsenges. Chem., 1983, v.87, p.1040−1051.
- Pacey P.D., Purnell I.H.S. Arrhenius parameters of the reaction CH^ + C2H6 —- CH^ + C2H5. Chem. Soc. Faraday Trans., 1972, v. 68(1), p.1462−1473.
- Кегелян E.M., Варданян И. А., Налбандян А. Б. К механизму термического окисления метана в реакторах, обработанных борной кислотой и бромистым калием. Кинетика и катализ, 1977, т.18, № 4, с.823−829.
- Borisov A.A., Dragalova E.V., Lisjanskii V.V., Skachkov G.I., Samanskii V.M. Kinetics and mechanism of methane oxidation at high temperatures. Oxidation Communications, 1983, v.4, Ж 1−4, p.45−59.
- Борисов А.А., Драгалова E.B., Заманский В. М., Лисянский В. В., Скачков Г. И. Взаимодействие радикалов СНд с кислородом. -Хим. физика, 1982, № II, с.1565−1567.
- Hoare D.E., Peacock G.B. Studies of the reactions of hydroxylradicals. Proc. Roy. Soc. A, 1966, v.291, p.85−93.
- Лисянский В.В. Влияние промоторов на 1^§-сокотемпературное воспламенение углеводородов в газовой фазе. Диссерт. канд. физ.-мат. наук, Москва, ИХФ АН СССР, 1982.
- Itorisov A, A, Dragalova E.V., Lisyanskii V.V., Skatchkov G, I, Zam^nskii V.M.Mechanism of methane oxidation at high temperatures, 2nd Intern, Specialists Meeting of the Combustion. Institute on Oxidation, Budapest, 1982, p, 72−73,
- Когарко C.M., Борисов А. А. Об измерении задержек воспламенения при высокой температуре. Изв. АН СССР, сер. хим., I960, № 8, с.1348−1353.
- Westbrook С, Dryer F., Schug К.P. Numerical modelling of ethylene oxidation in laminar flame, Combust. Flame, 1983, v.52, p.299−313,
- Atkinson R., Bull D.C. Kinetic modelling of ethane/air deto-nability. Shock waves, Explosions and Detonations. Progress in Astronautics and Aeronautics, 1983, v.87, p.318−330.
- Tschuikow-Roux E., Macfaddeni K.O., Jung K.H. Kinetics of the thermal dissociation of tetrafluorohydrazine, J. Phys. Chem., 1973, v.77, p.734−742.
- Modica A. P. Horning D.F. NFg-decomposition behind shock waves. J. Chem. Phys., 1965, v.43, p.2739−2744.