论文信息 - Direct Monte Carlo simulation of chemical reaction systems: Prediction of ultrafast detonations

Direct Monte Carlo simulation of chemical reaction systems: Prediction of ultrafast detonations

Ultrafast detonations having steady-state velocities greater than predicted by the Chapman–Jouguet (C–J) and the Zeldovich–von Neumann–Doring (ZND) theories are predicted by direct simulations of detonation waves in gaseous reaction systems. The simulations are made using Bird’s direct simulation Monte Carlo method which produces the full details of the coupled gas-dynamic and reaction effects as well as temperature, velocity, density, pressure, and species profiles for the detonation waves. The systems are simplified and clarified by restriction to one-dimensional flow with the reaction A+M→B+M having variable energy release and rate characteristics. For a slow reaction the reaction and shock regions are separated and the detonation wave proceeds at the forward speed of sound in the burned gas as predicted by the C–J and ZND theories. For a very fast reaction the reaction and shock waves overlap, the assumptions required for the C–J and ZND theories are no longer valid, the von Neumann spike is reduced, ...

Lyle N. Long | L. Long | James B. Anderson | James B. Anderson | James B. Anderson

[1] W. Döring,et al. Über den Detonationsvorgang in Gasen , 1943 .

[2] G. Bird. Molecular Gas Dynamics and the Direct Simulation of Gas Flows , 1994 .

[3] D. Chapman,et al. VI. On the rate of explosion in gases , 1899 .

[4] Direct Monte Carlo simulation of chemical reaction systems: Dissociation and recombination , 1995 .

[5] A. Dremin,et al. Toward detonation theory , 1999 .

[6] James A. Fay,et al. Two‐Dimensional Gaseous Detonations: Velocity Deficit , 1959 .

[7] Mikhail Naumovich Kogan,et al. Rarefied Gas Dynamics , 1969 .

[8] Lyle N. Long,et al. Navier-Stokes and Monte Carlo results for hypersonic flow , 1991 .

[9] C. F. Curtiss,et al. Molecular Theory Of Gases And Liquids , 1954 .

[10] Graeme A. Bird,et al. Approach to Translational Equilibrium in a Rigid Sphere Gas , 1963 .

[11] James B. Anderson,et al. Direct Monte Carlo simulation of chemical reaction systems: Internal energy transfer and an energy‐dependent unimolecular reaction , 1993 .

[12] James B. Anderson,et al. Direct Monte Carlo simulation of chemical reaction systems : simple bimolecular reactions , 1991 .

[13] W. W. Wood,et al. On the Existence of Steady‐State Detonations Supported by a Single Chemical Reaction , 1956 .

[14] Wildon Fickett,et al. Introduction to detonation theory , 1985 .

[15] W. W. Wood,et al. Structure of a Steady‐State Plane Detonation Wave with Finite Reaction Rate , 1954 .