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Computational Fluid Mechanics and Dynamics for Scientists

By: Contributor(s): Material type: TextTextPublication details: Ashland : Arcler Press, 2019.Description: 1 online resource (320 pages)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 1773615947
  • 9781773615943
Subject(s): Genre/Form: Additional physical formats: Print version:: Computational Fluid Mechanics and Dynamics for Scientists.DDC classification:
  • 620.1064 23
LOC classification:
  • TA357.5.D37
Online resources:
Contents:
Cover; Half Title Page; Title Page; Copyright Page; About the Authors; Table of Contents; List of Figures; List of Tables; List of Abbreviations; Physical Constants; List of Symbols; Preface; Chapter 1 Introduction; 1.1 Objective; 1.2 Nature of Fluids; 1.3 The Importance of Fluid Mechanics; 1.4 Subjects Related to Fluid Mechanics; 1.5 Some Concepts on Flow of Fluids; 1.6 Methods of Solving Fluid Mechanics and Dynamics Problems; Chapter 2 Fundamental Concepts; 2.1 Objective; 2.2 System and Control Volume (CV); 2.3 Dimensions and Units; 2.4 Fluid as a Continuum
2.5 Thermodynamic Properties of a Fluid2.6 One, Two, and Three-Dimensional (1D, 2D, And 3D) Flow of Fluid; 2.7 Stress Field; 2.8 Viscosity; 2.9 Reynolds Number; Chapter 3 Fluid Statics; 3.1 Objective; 3.2 Introduction; 3.3 Fundamental Equation of Fluid Statics; 3.4 Example Applications; Chapter 4 Basic Equations of Fluid Mechanics-Principles and Continuity Equation; 4.1 Introduction; 4.2 Fluid Flow Using Eulerian Representation; 4.3 Physics Principles; 4.4 Continuity Equation-Integral Form; 4.5 Applications; 4.6 Continuity Equation-Differential From
Chapter 5 Basic Equations of Fluid Mechanics-Momentum5.1 Introduction; 5.2 Momentum Equation-Differential Form; 5.3 Bernoulli Equation-Mechanical Energy Equation; 5.4 Applications Of The Bernoulli Equation; 5.5 Mechanical Energy Balance For Real Fluids; Chapter 6 Fluid Momentum And Pressure Drop; 6.1 Introduction; 6.2 Derivation of Pressure Drop; Chapter 7 Introduction to Computational Fluid Dynamics and Simulation; 7.1 Introduction; 7.2 Early Developments on CFD; 7.3 Recent Developments In CFD; 7.4 Introduction to Simulation; Chapter 8 1D CFD with Python; 8.1 Introduction
8.2 Overview of Python Language8.3 Structure of Python Language; Chapter 9 2D CFD With Python-Basic Phenomena; 9.1 Introduction; 9.2 2D Linear Convection; 9.3 2D Nonlinear Convection; 9.4 2D Diffusion Model; Chapter 10 2D CFD with Python-Advanced Phenomena; 10.1 Introduction; 10.2 2D Convection-Diffusion; 10.3 2D Laplace Equation; 10.4 2D Poisson Equation; Chapter 11 Shallow Fluid Flow; 11.1 Objective; 11.2 Introduction; 11.3 Types of Flow In Open-Channels; 11.4 Governing Equations-Saint Venant Equations; 11.5 Definitions on Shallow Water Modeling
11.6 Simplifications on The Shallow Water EquationsAppendixs; Bibliography; Index
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Print version record.

Cover; Half Title Page; Title Page; Copyright Page; About the Authors; Table of Contents; List of Figures; List of Tables; List of Abbreviations; Physical Constants; List of Symbols; Preface; Chapter 1 Introduction; 1.1 Objective; 1.2 Nature of Fluids; 1.3 The Importance of Fluid Mechanics; 1.4 Subjects Related to Fluid Mechanics; 1.5 Some Concepts on Flow of Fluids; 1.6 Methods of Solving Fluid Mechanics and Dynamics Problems; Chapter 2 Fundamental Concepts; 2.1 Objective; 2.2 System and Control Volume (CV); 2.3 Dimensions and Units; 2.4 Fluid as a Continuum

2.5 Thermodynamic Properties of a Fluid2.6 One, Two, and Three-Dimensional (1D, 2D, And 3D) Flow of Fluid; 2.7 Stress Field; 2.8 Viscosity; 2.9 Reynolds Number; Chapter 3 Fluid Statics; 3.1 Objective; 3.2 Introduction; 3.3 Fundamental Equation of Fluid Statics; 3.4 Example Applications; Chapter 4 Basic Equations of Fluid Mechanics-Principles and Continuity Equation; 4.1 Introduction; 4.2 Fluid Flow Using Eulerian Representation; 4.3 Physics Principles; 4.4 Continuity Equation-Integral Form; 4.5 Applications; 4.6 Continuity Equation-Differential From

Chapter 5 Basic Equations of Fluid Mechanics-Momentum5.1 Introduction; 5.2 Momentum Equation-Differential Form; 5.3 Bernoulli Equation-Mechanical Energy Equation; 5.4 Applications Of The Bernoulli Equation; 5.5 Mechanical Energy Balance For Real Fluids; Chapter 6 Fluid Momentum And Pressure Drop; 6.1 Introduction; 6.2 Derivation of Pressure Drop; Chapter 7 Introduction to Computational Fluid Dynamics and Simulation; 7.1 Introduction; 7.2 Early Developments on CFD; 7.3 Recent Developments In CFD; 7.4 Introduction to Simulation; Chapter 8 1D CFD with Python; 8.1 Introduction

8.2 Overview of Python Language8.3 Structure of Python Language; Chapter 9 2D CFD With Python-Basic Phenomena; 9.1 Introduction; 9.2 2D Linear Convection; 9.3 2D Nonlinear Convection; 9.4 2D Diffusion Model; Chapter 10 2D CFD with Python-Advanced Phenomena; 10.1 Introduction; 10.2 2D Convection-Diffusion; 10.3 2D Laplace Equation; 10.4 2D Poisson Equation; Chapter 11 Shallow Fluid Flow; 11.1 Objective; 11.2 Introduction; 11.3 Types of Flow In Open-Channels; 11.4 Governing Equations-Saint Venant Equations; 11.5 Definitions on Shallow Water Modeling

11.6 Simplifications on The Shallow Water EquationsAppendixs; Bibliography; Index

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