Finite Element Analysis Of Non Newtonian Flow
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Finite Element Analysis of Non-Newtonian Flow
This work presents the Finite Element simulation for non-Newtonian Flow, with the basic theory of the subject being included in the opening chapters. Constitutive equations are reviewed, particularly the Power Law equation that is widely employed in non-Newtonian analysis, and a relationship between Power Law flow and visco-plastic flow is discussed in detail. This material has been developed for engineers and researchers both academic and industrial with an interest in modelling non-Newtonian fluid flow. It will also be of interest to Finite Element software developers.
Finite Element Analysis of Non-Newtonian Flow
Author: Hou-Cheng Huang
language: en
Publisher: Springer Science & Business Media
Release Date: 2012-12-06
A follow on from the author's work "Finite Elements in Heat Transfer" which we published 11/94, and which is a powerful CFD programme that will run on a PC. The fluid flow market is larger than the previous, and this package is good value in comparison with other software packages in Computational Fluid Dynamics, which are generally very expensive. The work in general copes with non-Newtonian laminar flow using the finite element method, and some basic theory of the subject is included in the opening chapters of the book.
Numerical Simulation of Non-Newtonian Flow
Author: M.J. Crochet
language: en
Publisher: Elsevier Publishing Company
Release Date: 1984-02
Numerical Simulation of Non-Newtonian Flow focuses on the numerical simulation of non-Newtonian flow using finite difference and finite element techniques. Topics range from the basic equations governing non-Newtonian fluid mechanics to flow classification and finite element calculation of flow (generalized Newtonian flow and viscoelastic flow). An overview of finite difference and finite element methods is also presented. Comprised of 11 chapters, this volume begins with an introduction to non-Newtonian mechanics, paying particular attention to the rheometrical properties of non-Newtonian fluids as well as non-Newtonian flow in complex geometries. The role of non-Newtonian fluid mechanics is also considered. The discussion then turns to the basic equations governing non-Newtonian fluid mechanics, including Navier Stokes equations and rheological equations of state. The next chapter describes a flow classification in which the various flow problems are grouped under five main headings: flows dominated by shear viscosity, slow flows (slightly elastic liquids), small deformation flows, nearly-viscometric flows, and long-range memory effects in complex flows. The remainder of the book is devoted to numerical analysis of non-Newtonian fluids using finite difference and finite element techniques. This monograph will be of interest to students and practitioners of physics and mathematics.