375 results on '"Azatyan, V. V."'
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2. Chapter X. Chain–Thermal Explosion
3. Chapter XI. Chain Avalanche as a Kinetic Basis of Detonation. Chemical Control Methods
4. Chapter XII. Inhibition Reactions Used to Reveal and Study the Chain Nature of Combustion, Explosion, and Detonation
5. Chapter XIII. Studying Elementary Reactions Using Inhibition Phenomenon and Flammability Limits
6. Chapter V. Homogeneous and Heterogeneous Reactions between Active Particles in Gas Combustion
7. Chapter VI. Specificities of Hydrazine Ignition and Explosion as an Example of Anomalous Critical Phenomena
8. Chapter VII. Quadratic Reaction of Active Particle Reproduction and Nonthermal Flame Propagation
9. Chapter I. Some Information from Chemical Kinetics
10. Chapter III. Specificities of the Mechanism and Energy of Branching Chain Processes
11. Chapter IV. Theory of Ignition Induction Periods
12. Chapter IX. Laws of Kinetics of Nonisothermal Chain Processes
13. Chapter II. Chain Nature of Ignition and Explosion of Gases at Atmospheric and High Pressures
14. Inhibition of Combustion and Explosion of Methane–Air Mixtures in the Presence of Coal Dust
15. Mechanism and Kinetic Laws of Reactions Determining Flame Propagation, Gas Explosion, and Detonation (Review)
16. Dependences of Flame Propagation Characteristics on Heterogeneous Reactions of Intermediate Particles
17. Physicochemical Mechanisms and Kinetic Laws Influencing the Extreme Rate of Reactions in the Combustion and Detonation of Gases
18. Role of Heterogeneous Chain Termination in Flame Propagation
19. Physical and Chemical Mechanisms of Reactions that Proceed at Extremely High Rates in a Propagating Flame and the Detonation of Gas
20. Using Small Impurities of Inert Gases to Prevent the Combustion of Methane from Transitioning to an Explosion
21. Decisive Role of the Laws of Chain Reactions in Processes of Combustion, Explosion, and Detonation of Gases
22. Role of Semenov’s Theory of Chain Reactions in the Formation of Modern Concepts on the Processes of Combustion, Explosion, and Detonation of Gases
23. Temperature Dependence of the Rates of Oxidation and Decomposition of Combustible Gases
24. Specificity of the Temperature Dependence of the Gas Combustion Reaction Rates
25. Features of the Physicochemical Mechanisms and Kinetic Laws of Combustion, Explosion, and Detonation of Gases
26. Controlling the Combustion, Exploding, and Detonation of Gases by Means of Chemical Kinetics
27. Chemical Control of Combustion, Explosion, and Detonation of Gases
28. The Important Role of Heterogeneous Reactions of Free Atoms and Radicals in Processes of Flame Propagation
29. Kinetic Features of Gas Ignition upon Heating
30. Features of Haloalkane Effect on the Concentration Limits and Induction Time for the Ignition of Methane–Oxygen Mixtures
31. Chain-Thermal Explosions and the Transition from Deflagration Combustion to Detonation
32. Difference in the Mechanisms of the Inhibition of Hydrogen Combustion in the Deflagration and Detonation Modes
33. Determining role of the chain mechanism of hydrazine oxidation and decomposition in kinetically controlled combustion and explosion
34. Chain reactions of gas combustion, explosion, and detonation: Chemical methods for process management
35. Possible Gravitational Stratification of Components in Mixtures of Reaction Gases
36. The role of molecular-kinetic and thermal factors in inhibition of steady detonation
37. Influence of the oxygen content in the oxidizing medium on the combustion of fuel–oxidizing medium–hydrofluorocarbon near-stoichiometric mixtures
38. Synergism in combustion processes
39. Selective determination of rate constants of reactions of atomic hydrogen with various functional groups of a complex molecule
40. Characteristics of a chain thermal explosion as a function of the kinetic properties of reaction chains
41. The constancy of the concentration of an inhibitor preventing the ignition of gases
42. Regularities in the consumption of the initial reactants in various kinetic regimes
43. Chain nature of the combustion, explosion, and detonation of gases: New aspects of theory
44. Nature of the concentration limits of flame propagation in hydrogen–air mixtures
45. Role of the chemical mechanism in the temperature dependence of the rate of gas combustion reactions
46. Problems of combustion, explosion, and gas detonation in the theory of nonisothermal chain processes
47. Gas-phase combustion processes in light of the theory of non-isothermal chain reactions
48. Influence on fluorocarbons flammability limits in the mixtures of H2-N2O and CH4-N2O
49. Dependence of the flammability of hydrogen-air mixtures on the chemical and physical properties of admixtures
50. Inhibiting the combustion of air-methane mixtures
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