Solution of a kinetic equation for diatomic gas with the use of differential scattering cross sections computed by the method of classical trajectories
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Publication:5413144
DOI10.1134/S096554251307004XzbMath1299.82005WikidataQ115247870 ScholiaQ115247870MaRDI QIDQ5413144
Publication date: 28 April 2014
Published in: Computational Mathematics and Mathematical Physics (Search for Journal in Brave)
Boltzmann equationprojection methodcollision integralmolecular dynamicsdifferential scattering cross sectionsWang Chang-Welbeck equation
Related Items (4)
Method of calculating the collision integral and solution of the Boltzmann kinetic equation for simple gases, gas mixtures and gases with rotational degrees of freedom ⋮ Simulation of rarefied gas flows on the basis of the Boltzmann kinetic equation solved by applying a conservative projection method ⋮ Solution of the Wang Chang-Uhlenbeck equation for molecular hydrogen ⋮ Application of model kinetic equations to calculations of super- and hypersonic molecular gas flows
Cites Work
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- High resolution schemes for hyperbolic conservation laws
- High order embedded Runge-Kutta formulae
- On the accuracy of the projection computation of the collision integral
- Method for solving the Boltzmann kinetic equation for polyatomic gases
- High Resolution Schemes Using Flux Limiters for Hyperbolic Conservation Laws
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