Fluid Particle-Differential Analysis

34
© Fox, McDonald & Pritchard Introduction to Fluid Mechanics Chapter 5 Introduction to Differential Analysis of Fluid Motion

description

Cartesian and cylindrical Coordinate, Deformation and Rotation.

Transcript of Fluid Particle-Differential Analysis

Page 1: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Introduction to Fluid Mechanics

Chapter 5

Introduction to Differential Analysis of

Fluid Motion

Page 2: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Main Topics

Conservation of MassStream Function for Two-Dimensional

Incompressible FlowMotion of a Fluid Particle (Kinematics)Momentum Equation

Page 3: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Conservation of Mass

Basic Law for a System

Page 4: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Conservation of Mass

Rectangular Coordinate System

Page 5: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Conservation of Mass

Rectangular Coordinate System

Page 6: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Conservation of Mass

Rectangular Coordinate System

“Continuity Equation”

Page 7: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Conservation of Mass

Rectangular Coordinate System

“Del” Operator

Page 8: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Conservation of Mass

Rectangular Coordinate System

Page 9: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Conservation of Mass

Rectangular Coordinate System

Incompressible Fluid:

Steady Flow:

Page 10: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Conservation of Mass

Cylindrical Coordinate System

Page 11: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Conservation of Mass

Cylindrical Coordinate System

Page 12: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Conservation of Mass

Cylindrical Coordinate System

“Del” Operator

Page 13: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Conservation of Mass

Cylindrical Coordinate System

Page 14: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Conservation of Mass

Cylindrical Coordinate System

Incompressible Fluid:

Steady Flow:

Page 15: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Stream Function forTwo-Dimensional

Incompressible Flow

Two-Dimensional Flow

Stream Function

Page 16: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Stream Function forTwo-Dimensional

Incompressible Flow

Cylindrical Coordinates

Stream Function (r,)

Page 17: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Motion of a Fluid Particle (Kinematics)

Fluid Translation: Acceleration of aFluid Particle in a Velocity Field

Fluid RotationFluid Deformation

• Angular Deformation• Linear Deformation

Page 18: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Motion of a Fluid Particle (Kinematics)

Page 19: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Motion of a Fluid Particle (Kinematics)

Fluid Translation: Acceleration of aFluid Particle in a Velocity Field

Page 20: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Motion of a Fluid Particle (Kinematics)

Fluid Translation: Acceleration of aFluid Particle in a Velocity Field

Page 21: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Motion of a Fluid Particle (Kinematics)

Fluid Translation: Acceleration of aFluid Particle in a Velocity Field

Page 22: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Motion of a Fluid Particle (Kinematics)

Fluid Translation: Acceleration of aFluid Particle in a Velocity Field (Cylindrical)

Page 23: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Motion of a Fluid Particle (Kinematics)

Fluid Rotation

Page 24: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Motion of a Fluid Particle (Kinematics)

Fluid Rotation

Page 25: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Motion of a Fluid Particle (Kinematics)

Fluid Rotation

Page 26: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Motion of a Fluid Particle (Kinematics)

Fluid Deformation:• Angular Deformation

Page 27: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Motion of a Fluid Particle (Kinematics)

Fluid Deformation:• Angular Deformation

Page 28: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Motion of a Fluid Particle (Kinematics)

Fluid Deformation:• Linear Deformation

Page 29: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Momentum Equation

Newton’s Second Law

Page 30: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Momentum Equation

Forces Acting on a Fluid Particle

Page 31: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Momentum Equation

Forces Acting on a Fluid Particle

Page 32: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Momentum Equation

Differential Momentum Equation

Page 33: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Momentum Equation

Newtonian Fluid: Navier-Stokes Equations

Page 34: Fluid Particle-Differential Analysis

© Fox, McDonald & Pritchard

Momentum Equation

Special Case: Euler’s Equation


Differential evolution and particle swarm optimization ...

Differential evolution and particle swarm optimization ...

Fluid and Particle Mechanics

Fluid and Particle Mechanics

Differential Analysis of Fluid Flow

Differential Analysis of Fluid Flow

Particle Technology- Fluid Flow in Porous Media

Particle Technology- Fluid Flow in Porous Media

Supercritical Fluid Technology for Particle Engineering

Supercritical Fluid Technology for Particle Engineering

Differential Equations of Fluid Dynamics

Differential Equations of Fluid Dynamics

Enhanced Velocity Differential Evolutionary Particle Swarm ...

Enhanced Velocity Differential Evolutionary Particle Swarm ...

Differential Equations and Particle Systems

Differential Equations and Particle Systems

Boundary Layer Notes -Fluid and Particle mechanics

Boundary Layer Notes -Fluid and Particle mechanics

Particle-based Viscoelastic Fluid Simulation

Particle-based Viscoelastic Fluid Simulation

Derivative Relation on Fluid Particle

Derivative Relation on Fluid Particle

Particle motion in Stokes flow near a plane fluid-fluid ...authors.library.caltech.edu/32378/1/YANjfm83.pdf · Particle motion in Stokes flow near a plane fluid-fluid interface. Part

Particle motion in Stokes flow near a plane fluid-fluid ...authors.library.caltech.edu/32378/1/YANjfm83.pdf · Particle motion in Stokes flow near a plane fluid-fluid interface. Part

Particle Swarm Optimization & Differential Evolutionewh.ieee.org/cmte/cis/mtsc/ieeecis/tutorial2007/CEC2007/P_N... · Particle Swarm Optimization & Differential Evolution Presenter:

Particle Swarm Optimization & Differential Evolutionewh.ieee.org/cmte/cis/mtsc/ieeecis/tutorial2007/CEC2007/P_N... · Particle Swarm Optimization & Differential Evolution Presenter:

Lecture 1 - Ltas-aea :: · PDF file• Rotational flow: • Irrotational flow: Fluid particle, time t 1 Fluid rotation Fluid particle, time t 2 Fluid particle, time t 3 Fluid particle,

Lecture 1 - Ltas-aea :: · PDF file• Rotational flow: • Irrotational flow: Fluid particle, time t 1 Fluid rotation Fluid particle, time t 2 Fluid particle, time t 3 Fluid particle,

Ch-6 Differential Analysis of Fluid Flow

Ch-6 Differential Analysis of Fluid Flow

Chapter 9: Differential Analysis of Fluid Flow

Chapter 9: Differential Analysis of Fluid Flow

Settling and sedimentation in particle – fluid separation

Settling and sedimentation in particle – fluid separation

Differential Liberation PVT fluid test

Differential Liberation PVT fluid test

Particle-BasedFluid-Fluid Interactionsequin/CS284/PAPERS/fluid fluid... · Particle-BasedFluid-Fluid Interaction Matthias Müller1, Barbara Solenthaler2, Richard Keiser3, Markus Gross3

Particle-BasedFluid-Fluid Interactionsequin/CS284/PAPERS/fluid fluid... · Particle-BasedFluid-Fluid Interaction Matthias Müller1, Barbara Solenthaler2, Richard Keiser3, Markus Gross3

Differential Particle Size Distribution of Aerosol across ...

Differential Particle Size Distribution of Aerosol across ...