Two-Phase Flow: Theory and Applications
Routledge, 1 nov 2017 - 512 pagine
This graduate text provides a unified treatment of the fundamental principles of two-phase flow and shows how to apply the principles to a variety of homogeneous mixture as well as separated liquid-liquid, gas-solid, liquid-solid, and gas-liquid flow problems, which may be steady or transient, laminar or turbulent.Each chapter contains several sample problems, which illustrate the outlined theory and provide approaches to find simplified analytic descriptions of complex two-phase flow phenomena.This well-balanced introductory text will be suitable for advanced seniors and graduate students in mechanical, chemical, biomedical, nuclear, environmental and aerospace engineering, as well as in applied mathematics and the physical sciences. It will be a valuable reference for practicing engineers and scientists. A solutions manual is available to qualified instructors.
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aerosol approach assumption averaged blood boundary conditions bubbles bubbly flow carrier fluid coefficients collision computational conservation equations constitutive equations continuity equation continuous phase control volume density derived diameter direct numerical simulation dispersed phase distribution drag drift flux drift-flux model droplet effects example flow field flow model flow rate flow regimes Fluid Dynamics fluid element fluid flow fluid-particle force function geometry hemodynamic inlet integral interactions interfacial Ishii Kleinstreuer Lagrangian laminar lift force liquid mass transfer method mixture flow momentum equation Multiphase Flow Navier-Stokes equations Newtonian fluid non-Newtonian non-Newtonian fluid parameters particle deposition particle suspension particle trajectories pathlines pressure gradient problem ratio Reynolds number Reynolds stress rheology Sect shear rate shear stress simulation single-phase flow solid particles solution solved spherical steady Stokes number surface suspension flow tensor transient transport tube Turbulence modeling turbulent flow two-fluid model two-phase flow variables velocity profiles vertical viscosity void fraction volume fraction wall