English

An Advanced Kinetic Theory For Morphing Continuum With Inner Structures

Fluid Dynamics 2018-02-14 v1 Statistical Mechanics

Abstract

Advanced kinetic theory with the Boltzmann-Curtiss equation provides a promising tool for polyatomic gas flows, especially for fluid flows containing inner structures, such as turbulence, polyatomic gas flows and others. Although a Hamiltonian-based distribution function was proposed for diatomic gas flow, a general distribution function for the generalized Boltzmann-Curtiss equations and polyatomic gas flow is still out of reach. With assistance from Boltzmann's entropy principle, a generalized Boltzmann-Curtiss distribution for polyatomic gas flow is introduced. The corresponding governing equations at equilibrium state are derived and compared with Eringen's morphing (micropolar) continuum theory derived under the framework of rational continuum thermomechanics. Although rational continuum thermomechanics has the advantages of mathematical rigor and simplicity, the presented statistical kinetic theory approach provides a clear physical picture for what the governing equations represent.

Keywords

Cite

@article{arxiv.1710.08324,
  title  = {An Advanced Kinetic Theory For Morphing Continuum With Inner Structures},
  author = {James Chen},
  journal= {arXiv preprint arXiv:1710.08324},
  year   = {2018}
}

Comments

to appear in Reports on Mathematical Physics. arXiv admin note: text overlap with arXiv:1710.07208

R2 v1 2026-06-22T22:22:51.479Z