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Derivation of Equations for Continuum Mechanics and Thermodynamics of Fluids
Type of publication: Incollection
Citation:
Publication status: Published
Booktitle: Handbook of Mathematical Analysis in Mechanics of Viscous Fluids
Year: 2016
Publisher: Springer International Publishing
ISBN: 978-3-319-13343-0
DOI: 10.1007/978-3-319-10151-4_1-1
Abstract: The chapter starts with overview of the derivation of the balance equations for mass, momentum, angular momentum, and total energy, which is followed by a detailed discussion of the concept of entropy and entropy production. While the balance laws are universal for any continuous medium, the particular behavior of the material of interest must be described by an extra set of material-specific equations. These equations relating, for example, the Cauchy stress tensor and the kinematical quantities are called the constitutive relations. The core part of the chapter is devoted to the presentation of a modern thermodynamically based phenomenological theory of constitutive relations. The key feature of the theory is that the constitutive relations stem from the choice of two scalar quantities, the internal energy and the entropy production. This is tantamount to the proposition that the material behavior is fully characterized by the way it stores the energy and produces the entropy. The general theory is documented by several examples of increasing complexity. It is shown how to derive the constitutive relations for compressible and incompressible viscous heat-conducting fluids (Navier–Stokes–Fourier fluid), Korteweg fluids, and compressible and incompressible heat-conducting viscoelastic fluids (Oldroyd-B and Maxwell fluid).
Preprint project: MORE
Preprint year: 2016
Preprint number: 39
Preprint ID: MORE/2016/39
Keywords:
Authors Málek, Josef
Průša, Vít
Editors Giga, Yoshikazu
Novotný, Antonín
Added by: [MB]
Total mark: 0
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