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Consistent kinetic-continuum dissociation model. II. Continuum formulation and verification

Narendra Singh, Thomas Schwartzentruber

2020The Journal of Chemical Physics19 citationsDOIOpen Access PDF

Abstract

In this article, we implement a recently developed non-equilibrium chemical kinetics model [N. Singh and T. Schwartzentruber, J. Chem. Phys. 152, 224302 (2020)] based on ab initio simulation data and perform verification studies. Direct molecular simulation data are used to verify the predictive capabilities of the model. Using the model, dominant physics, such as the need for a rotational energy equation, and the quantitative role of non-Boltzmann effects are identified. Based on the analysis and reasonable assumptions, a simplified model for implementation into large-scale computational fluid dynamic simulations is proposed. Without incurring additional computational cost, the model can be used in existing flow solvers to analyze hypersonic flows.

Topics & Concepts

Computer scienceStatistical physicsExperimental dataAb initioDissociation (chemistry)Applied mathematicsComputational modelAlgorithmMolecular dynamicsWork (physics)PhysicsEnergy (signal processing)Hypersonic speedMathematical modelVerification and validation of computer simulation modelsNumerical modelsDynamic simulationComputational complexity theorySimulationAb initio quantum chemistry methodsPotential energyMathematical optimizationGas Dynamics and Kinetic TheoryCombustion and flame dynamicsLattice Boltzmann Simulation Studies
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