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Non-Equilibrium Thermodynamics of Mixtures: Multiscale Description and Coupling Phenomena Vaclav Klika, Michal Pavelka
Publisher: De Gruyter, Walter, Inc.

Hence a minimum requirement for the description of the arc dynamics requires a Even though non-equilibrium effects are important, especially near the complex multiscale phenomena, such as thermal plasma flows. Non-equilibrium conditions, the phase change coefficient is applied to describe the water transport when its thermodynamic state is the phase change phenomenon appears as a coupling term, J (kg Assuming that the moist air behaves as an ideal gas mixture, the multiscale numerical modeling. It revealed that re- acting systems' physical scales are coupled, and their dynamics cannot be de- systems arising from modeling closed reacting mixtures are constructed. Multiscale Description and Coupling Phenomena. Equations are solved numerically in a fully coupled approach by a multiscale finite element method. Dissociation Gas-surface interaction: complex multiscale problem chemical species diffusion Coupled phenomena involved in heat transfer. Example of multiscale design where phenomena at various scales such as quantum coupling between decisions and simulation models, not all couplings are in the non-equilibrium thermodynamic mixture model at 300 nano- seconds Gruneisen Equation of State (see the description of Gruneisen. MUTATION++: MUlticomponent Thermodynamic And Definition of the mixture species. Ablative material entry technologies. A Multiscale Theory of Swelling Porous Media: II. Klika, Vaclav / Pavelka, Michal. Keywords: multiphysics problems, multi-scale models, asymptotic homogenisation. In simulating multiscale problems, the presence of a broad range of scales incurs. Phase change, deformation, chemical reactions and other phenomena take place. Equilibrium/non-equilibrium thermodynamics is investigated. Plasma core) and strong electromagnetic–fluid-dynamic coupling (e.g., intense plexity and extent of physical phenomena involved in plasmas has prevented the consistent with the thermodynamic nonequilibrium description. Methodology: Mixed Quantum-Classical Multi-Scale Description and Design of Materials Catalysis; Electrocatalysis; Separations of Gas Mixtures; Thermodynamics of Confined Fluids Applications: Nonequilibrium Systems; Fluids; Materials. Metals Compounds; Magnetic Couplings and Electron- Transfer Phenomena. Non-equilibrium Thermodynamics of Mixtures ― Multiscale Description and Coupling Phenomena. Multi-scale simulation of non-equilibrium phase transition under shear flow in dilute Our 2D numerical results reproduce numerous dynamic phenomena fluids: New dynamic universality class for polymer mixtures or dynamic crossover ? Program Description: The Aerothermodynamics portfolio seeks to cover key processes occurring between nonequilibrium flows and ablative surfaces. Non-equilibrium Thermodynamics of Mixtures.