The Rajagopal-Srinivasa maximal entropy production principle equals a minimal relaxation-time principle in BGK kinetic models, enabling a hybrid Chapman-Enskog approach that recovers Euler and Navier-Stokes-Fourier laws.
2025 A kinetic theory approach to ordered fluids
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Derives constitutive equations for Cauchy stress, couple-stress, energy and entropy fluxes in compressible and incompressible thermal viscous nematic liquid crystal models from kinetic theory via Chapman-Enskog expansion and Rajagopal-Srinivasa maximization.
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A kinetic interpretation of thermomechanical restrictions of continua
The Rajagopal-Srinivasa maximal entropy production principle equals a minimal relaxation-time principle in BGK kinetic models, enabling a hybrid Chapman-Enskog approach that recovers Euler and Navier-Stokes-Fourier laws.
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Kinetic derivation of thermal viscous models for nematic liquid crystal dynamics
Derives constitutive equations for Cauchy stress, couple-stress, energy and entropy fluxes in compressible and incompressible thermal viscous nematic liquid crystal models from kinetic theory via Chapman-Enskog expansion and Rajagopal-Srinivasa maximization.