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Four-temperature kinetic model for CO2 vibrational relaxation

A. Kosareva, O. Kunova, Е. В. Кустова, Е. А. Нагнибеда

2021Physics of Fluids31 citationsDOI

Abstract

A four-temperature kinetic-theory approach for modeling vibrationally non-equilibrium carbon dioxide flows is developed. The model takes into account all kinds of vibrational–translational energy transitions and inter-mode vibrational energy exchange between symmetric, bending, and asymmetric CO2 modes. The key feature of the model is using the averaged state-resolved relaxation rates instead of conventional Landau–Teller expressions. Spatially homogeneous CO2 vibrational relaxation is studied using the state-to-state, new four-temperature and commonly used three-temperature models. Excellent agreement between four-temperature and state-to-state solutions is found, whereas using the three-temperature model with the Landau–Teller production rates leads to significant loss of accuracy. Numerical efficiency of various approaches is discussed as well as the ways for its improvement.

Topics & Concepts

PhysicsKinetic energyMean kinetic temperatureRelaxation (psychology)Vibrational energy relaxationThermodynamicsThermodynamic equilibriumVibrational temperatureEnergy exchangeStatistical physicsAtomic physicsExcited stateClassical mechanicsSocial psychologyAtmospheric sciencesPsychologyGas Dynamics and Kinetic TheoryOptical properties and cooling technologies in crystalline materialsAdvancements in Solid Oxide Fuel Cells
Four-temperature kinetic model for CO2 vibrational relaxation | Litcius