Litcius/Paper detail

Consistent, explicit, and accessible Boltzmann collision operator for polyatomic gases

Vladimir Djordjić, Milana Pavić‐Čolić, Manuel Torrilhon

2021Physical review. E14 citationsDOI

Abstract

Based on a continuous internal energy state variable, we propose an explicit, fully nonlinear Boltzmann collision operator for the evolution of the distribution function describing a polyatomic gas with a constant heat capacity. The particle interaction is a polyatomic generalization of the variable hard-sphere model, used in a recent rigorous mathematical analysis, and includes frozen collisions. The model is consistent with the monatomic case and allows easy evaluations for moment equations and the Chapman-Enskog expansion. Using a publicly available computer algebra code we can explicitly compute nonlinear production terms for macroscopic systems of moments. The range of Prandtl number values recovers the Eucken formula for a specific choice of frozen collisions.

Topics & Concepts

Polyatomic ionMonatomic gasMoment (physics)Operator (biology)PhysicsCollisionNonlinear systemBoltzmann equationBoltzmann constantGeneralizationVariable (mathematics)Range (aeronautics)Statistical physicsPrandtl numberClassical mechanicsDistribution functionComputer scienceQuantum mechanicsMathematicsMathematical analysisHeat transferChemistryBiochemistryComputer securityIonGeneMaterials scienceTranscription factorComposite materialRepressorGas Dynamics and Kinetic TheoryAdvanced Thermodynamics and Statistical MechanicsParticle Dynamics in Fluid Flows