© 2016

Fluid and Thermodynamics

Volume 2: Advanced Fluid Mechanics and Thermodynamic Fundamentals


Table of contents

  1. Front Matter
    Pages i-xx
  2. Kolumban Hutter, Yongqi Wang
    Pages 1-45
  3. Kolumban Hutter, Yongqi Wang
    Pages 113-196
  4. Kolumban Hutter, Yongqi Wang
    Pages 197-225
  5. Kolumban Hutter, Yongqi Wang
    Pages 227-261
  6. Kolumban Hutter, Yongqi Wang
    Pages 317-420
  7. Kolumban Hutter, Yongqi Wang
    Pages 421-482
  8. Kolumban Hutter, Yongqi Wang
    Pages 483-536
  9. Back Matter
    Pages 609-633

About this book


In this book fluid mechanics and thermodynamics (F&T) are approached as interwoven, not disjoint fields. The book starts by analyzing the creeping motion around spheres at rest: Stokes flows, the Oseen correction and the Lagerstrom-Kaplun expansion theories are presented, as is the homotopy analysis. 3D creeping flows and rapid granular avalanches are treated in the context of the shallow flow approximation, and it is demonstrated that uniqueness and stability deliver a natural transition to turbulence modeling at the zero, first order closure level. The difference-quotient turbulence model (DQTM) closure scheme reveals the importance of the turbulent closure schemes’ non-locality effects. Thermodynamics is presented in the form of the first and second laws, and irreversibility is expressed in terms of an entropy balance. Explicit expressions for constitutive postulates are in conformity with the dissipation inequality. Gas dynamics offer a first application of combined F&T. The book is rounded out by a chapter on dimensional analysis, similitude, and physical experiments.


Fluid-, Fluid-Thermodynamics Creeping Motion Around Spheres at Rest Creeping Gravity Driven Flows Reynolds Stress Modeling Asymptotic Analysis for Slow Viscous Flows Around Spheres Shallow Slow and Rapid Gravity Driven Flows Uniqueness and Stability Turbulent Modeling – Mixing Length Models Thermodynamic Fundamentals Thermodynamics, Field Formulation Introduction to Gas Dynamics Dimensional Analysis Similitude and Physical Experiments

Authors and affiliations

  1. 1.c/o Versuchsanstalt für Wasserbau, Hydrologie und GlaziologieETH ZürichZürichSwitzerland
  2. 2.Department of Mechanical EngineeringTechnische Universität Darmstadt Department of Mechanical EngineeringDarmstadtGermany

Bibliographic information

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