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The Resource Biofluid Mechanics : an Introduction to Fluid Mechanics, Macrocirculation, and Microcirculation, (electronic resource)

Biofluid Mechanics : an Introduction to Fluid Mechanics, Macrocirculation, and Microcirculation, (electronic resource)

Resource Information

The item Biofluid Mechanics : an Introduction to Fluid Mechanics, Macrocirculation, and Microcirculation, (electronic resource) represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Calgary Public Library.
This item is available to borrow from all library branches.

Creator

Rubenstein, David

Contributor

Summary: Both broad and deep in coverage, Rubenstein shows that fluid mechanics principles can be applied not only to blood circulation, but also to air flow through the lungs, joint lubrication, intraocular fluid movement and renal transport. Each section initiates discussion with governing equations, derives the state equations and then shows examples of their usage. Clinical applications, extensive worked examples, and numerous end of chapter problems clearly show the applications of fluid mechanics to biomedical engineering situations. A section on experimental techniques provides a springboard for

Language: eng

Work

Publication

Burlington, Elsevier Science, 2011

Extent: 1 online resource (829 p.)

Note: 9.7. Disease Conditions

Contents

Cover image; Table of Contents; Front-matter; Copyright; Preface; Chapter 1. Introduction; 1.1. Note to Students About the Textbook; 1.2. Biomedical Engineering; 1.3. Scope of Fluid Mechanics; 1.4. Scope of Biofluid Mechanics; 1.5. Dimensions and Units; Chapter 2. Fundamentals of Fluid Mechanics; 2.1. Fluid Mechanics Introduction; 2.2. Fundamental Fluid Mechanics Equations; 2.3. Analysis Methods; 2.4. Fluid as a Continuum; 2.5. Elemental Stress and Pressure; 2.6. Kinematics: Velocity, Acceleration, Rotation and Deformation; 2.7. Viscosity; 2.8. Fluid Motions; 2.9. Two-Phase Flows
2.10. Changes in the Fundamental Relationships on the Microscale2.11. Fluid Structure Interaction; Chapter 3. Conservation Laws; 3.1. Fluid Statics Equations; 3.2. Buoyancy; 3.3. Conservation of Mass; 3.4. Conservation of Momentum; 3.5. Momentum Equation with Acceleration; 3.6. The First and Second Laws of Thermodynamics; 3.7. The Navier-Stokes Equations; 3.8. Bernoulli Equation; Chapter 4. The Heart; 4.1. Cardiac Physiology; 4.2. Cardiac Conduction System/Electrocardiogram; 4.3. The Cardiac Cycle; 4.4. Heart Motion; 4.5. Heart Valve Function; 4.6. Disease Conditions
Chapter 5. Blood Flow in Arteries and Veins5.1. Arterial System Physiology; 5.2. Venous System Physiology; 5.3. Blood Cells and Plasma; 5.4. Blood Rheology; 5.5. Pressure, Flow, and Resistance: Arterial System; 5.6. Pressure, Flow, and Resistance: Venous System; 5.7. Wave Propagation in Arterial Circulation; 5.8. Flow Separation at Bifurcations and at Walls; 5.9. Flow Through Tapering and Curved Channels; 5.10. Pulsatile Flow and Turbulence; 5.11. Disease Conditions; Chapter 6. Microvascular Beds; 6.1. Microcirculation Physiology; 6.2. Endothelial Cell and Smooth Muscle Cell Physiology
6.3. Local Control of Blood Flow6.4. Pressure Distribution Throughout the Microvascular Beds; 6.5. Velocity Distribution Throughout the Microvascular Beds; 6.6. Interstitial Space Pressure and Velocity; 6.7. Hematocrit/Fahraeus-Lindquist Effect/Fahraeus Effect; 6.8. Plug Flow in Capillaries; 6.9. Characteristics of Two-phase Flow; 6.10. Interactions Between Cells and the Vessel Wall; 6.11. Disease Conditions; Chapter 7. Mass Transport and Heat Transfer in the Microcirculation; 7.1. Gas Diffusion; 7.2. Glucose Transport; 7.3. Vascular Permeability; 7.4. Energy Considerations
7.5. Transport through Porous Media7.6. Microcirculatory Heat Transfer; 7.7. Cell Transfer During Inflammation/White Blood Cell Rolling and Sticking; Chapter 8. The Lymphatic System; 8.1. Lymphatic Physiology; 8.2. Lymph Formation; 8.3. Flow Through the Lymphatic System; 8.4. Disease Conditions; Chapter 9. Flow in the Lungs; 9.1. Lung Physiology; 9.2. Elasticity of the Lung Blood Vessels and Alveoli; 9.3. Pressure-Volume Relationship for Air Flow in the Lungs; 9.4. Oxygen/Carbon Dioxide Diffusion; 9.5. Oxygen/Carbon Dioxide Transport in the Blood; 9.6. Compressible Fluid Flow

Isbn: 9780123813848

Link: http://calgary.lib.overdrive.com/ContentDetails.htm?ID=84EDD8B0-A66E-4152-8CA4-A1FD262FD211

Instance

Label: Biofluid Mechanics : an Introduction to Fluid Mechanics, Macrocirculation, and Microcirculation

Title: Biofluid Mechanics

Title remainder: an Introduction to Fluid Mechanics, Macrocirculation, and Microcirculation

Creator

Rubenstein, David

Contributor

Subject

Genre

Language: eng

Summary: Both broad and deep in coverage, Rubenstein shows that fluid mechanics principles can be applied not only to blood circulation, but also to air flow through the lungs, joint lubrication, intraocular fluid movement and renal transport. Each section initiates discussion with governing equations, derives the state equations and then shows examples of their usage. Clinical applications, extensive worked examples, and numerous end of chapter problems clearly show the applications of fluid mechanics to biomedical engineering situations. A section on experimental techniques provides a springboard for

Member of

Academic Press series in biomedical engineering

Cataloging source: EBLCP

http://library.link/vocab/creatorName: Rubenstein, David

Dewey number: 599.01/01/53

Index: no index present

LC call number: QP105

Literary form: non fiction

Nature of contents: dictionaries

http://library.link/vocab/relatedWorkOrContributorName

Yin, Wei
Frame, Mary D

Series statement: Academic Press series in biomedical engineering

http://library.link/vocab/subjectName

Hemodynamics
Biomedical engineering
Biomedical engineering
Body fluid flow
Hemodynamics
Rheology (Biology)
Zoology
Natural history
Science
Body Fluids
Rheology
Biomechanics
Blood Circulation
Hemodynamics

Label: Biofluid Mechanics : an Introduction to Fluid Mechanics, Macrocirculation, and Microcirculation, (electronic resource)

Link: http://calgary.lib.overdrive.com/ContentDetails.htm?ID=84EDD8B0-A66E-4152-8CA4-A1FD262FD211

Instantiates

Biofluid Mechanics : an Introduction to Fluid Mechanics, Macrocirculation, and Microcirculation

Publication

Burlington, Elsevier Science, 2011

Note: 9.7. Disease Conditions

Bibliography note: Includes bibliographical references and index

Contents

Cover image; Table of Contents; Front-matter; Copyright; Preface; Chapter 1. Introduction; 1.1. Note to Students About the Textbook; 1.2. Biomedical Engineering; 1.3. Scope of Fluid Mechanics; 1.4. Scope of Biofluid Mechanics; 1.5. Dimensions and Units; Chapter 2. Fundamentals of Fluid Mechanics; 2.1. Fluid Mechanics Introduction; 2.2. Fundamental Fluid Mechanics Equations; 2.3. Analysis Methods; 2.4. Fluid as a Continuum; 2.5. Elemental Stress and Pressure; 2.6. Kinematics: Velocity, Acceleration, Rotation and Deformation; 2.7. Viscosity; 2.8. Fluid Motions; 2.9. Two-Phase Flows
2.10. Changes in the Fundamental Relationships on the Microscale2.11. Fluid Structure Interaction; Chapter 3. Conservation Laws; 3.1. Fluid Statics Equations; 3.2. Buoyancy; 3.3. Conservation of Mass; 3.4. Conservation of Momentum; 3.5. Momentum Equation with Acceleration; 3.6. The First and Second Laws of Thermodynamics; 3.7. The Navier-Stokes Equations; 3.8. Bernoulli Equation; Chapter 4. The Heart; 4.1. Cardiac Physiology; 4.2. Cardiac Conduction System/Electrocardiogram; 4.3. The Cardiac Cycle; 4.4. Heart Motion; 4.5. Heart Valve Function; 4.6. Disease Conditions
Chapter 5. Blood Flow in Arteries and Veins5.1. Arterial System Physiology; 5.2. Venous System Physiology; 5.3. Blood Cells and Plasma; 5.4. Blood Rheology; 5.5. Pressure, Flow, and Resistance: Arterial System; 5.6. Pressure, Flow, and Resistance: Venous System; 5.7. Wave Propagation in Arterial Circulation; 5.8. Flow Separation at Bifurcations and at Walls; 5.9. Flow Through Tapering and Curved Channels; 5.10. Pulsatile Flow and Turbulence; 5.11. Disease Conditions; Chapter 6. Microvascular Beds; 6.1. Microcirculation Physiology; 6.2. Endothelial Cell and Smooth Muscle Cell Physiology
6.3. Local Control of Blood Flow6.4. Pressure Distribution Throughout the Microvascular Beds; 6.5. Velocity Distribution Throughout the Microvascular Beds; 6.6. Interstitial Space Pressure and Velocity; 6.7. Hematocrit/Fahraeus-Lindquist Effect/Fahraeus Effect; 6.8. Plug Flow in Capillaries; 6.9. Characteristics of Two-phase Flow; 6.10. Interactions Between Cells and the Vessel Wall; 6.11. Disease Conditions; Chapter 7. Mass Transport and Heat Transfer in the Microcirculation; 7.1. Gas Diffusion; 7.2. Glucose Transport; 7.3. Vascular Permeability; 7.4. Energy Considerations
7.5. Transport through Porous Media7.6. Microcirculatory Heat Transfer; 7.7. Cell Transfer During Inflammation/White Blood Cell Rolling and Sticking; Chapter 8. The Lymphatic System; 8.1. Lymphatic Physiology; 8.2. Lymph Formation; 8.3. Flow Through the Lymphatic System; 8.4. Disease Conditions; Chapter 9. Flow in the Lungs; 9.1. Lung Physiology; 9.2. Elasticity of the Lung Blood Vessels and Alveoli; 9.3. Pressure-Volume Relationship for Air Flow in the Lungs; 9.4. Oxygen/Carbon Dioxide Diffusion; 9.5. Oxygen/Carbon Dioxide Transport in the Blood; 9.6. Compressible Fluid Flow

Control code: ocn757260981

Dimensions: unknown

Extent: 1 online resource (829 p.)

Form of item: online

Isbn: 9780123813848

Specific material designation: remote

Stock number: 1092643:10872991

System control number: (OCoLC)757260981

Label: Biofluid Mechanics : an Introduction to Fluid Mechanics, Macrocirculation, and Microcirculation, (electronic resource)

Link: http://calgary.lib.overdrive.com/ContentDetails.htm?ID=84EDD8B0-A66E-4152-8CA4-A1FD262FD211

Publication

Burlington, Elsevier Science, 2011

Note: 9.7. Disease Conditions

Bibliography note: Includes bibliographical references and index

Contents

Cover image; Table of Contents; Front-matter; Copyright; Preface; Chapter 1. Introduction; 1.1. Note to Students About the Textbook; 1.2. Biomedical Engineering; 1.3. Scope of Fluid Mechanics; 1.4. Scope of Biofluid Mechanics; 1.5. Dimensions and Units; Chapter 2. Fundamentals of Fluid Mechanics; 2.1. Fluid Mechanics Introduction; 2.2. Fundamental Fluid Mechanics Equations; 2.3. Analysis Methods; 2.4. Fluid as a Continuum; 2.5. Elemental Stress and Pressure; 2.6. Kinematics: Velocity, Acceleration, Rotation and Deformation; 2.7. Viscosity; 2.8. Fluid Motions; 2.9. Two-Phase Flows
2.10. Changes in the Fundamental Relationships on the Microscale2.11. Fluid Structure Interaction; Chapter 3. Conservation Laws; 3.1. Fluid Statics Equations; 3.2. Buoyancy; 3.3. Conservation of Mass; 3.4. Conservation of Momentum; 3.5. Momentum Equation with Acceleration; 3.6. The First and Second Laws of Thermodynamics; 3.7. The Navier-Stokes Equations; 3.8. Bernoulli Equation; Chapter 4. The Heart; 4.1. Cardiac Physiology; 4.2. Cardiac Conduction System/Electrocardiogram; 4.3. The Cardiac Cycle; 4.4. Heart Motion; 4.5. Heart Valve Function; 4.6. Disease Conditions
Chapter 5. Blood Flow in Arteries and Veins5.1. Arterial System Physiology; 5.2. Venous System Physiology; 5.3. Blood Cells and Plasma; 5.4. Blood Rheology; 5.5. Pressure, Flow, and Resistance: Arterial System; 5.6. Pressure, Flow, and Resistance: Venous System; 5.7. Wave Propagation in Arterial Circulation; 5.8. Flow Separation at Bifurcations and at Walls; 5.9. Flow Through Tapering and Curved Channels; 5.10. Pulsatile Flow and Turbulence; 5.11. Disease Conditions; Chapter 6. Microvascular Beds; 6.1. Microcirculation Physiology; 6.2. Endothelial Cell and Smooth Muscle Cell Physiology
6.3. Local Control of Blood Flow6.4. Pressure Distribution Throughout the Microvascular Beds; 6.5. Velocity Distribution Throughout the Microvascular Beds; 6.6. Interstitial Space Pressure and Velocity; 6.7. Hematocrit/Fahraeus-Lindquist Effect/Fahraeus Effect; 6.8. Plug Flow in Capillaries; 6.9. Characteristics of Two-phase Flow; 6.10. Interactions Between Cells and the Vessel Wall; 6.11. Disease Conditions; Chapter 7. Mass Transport and Heat Transfer in the Microcirculation; 7.1. Gas Diffusion; 7.2. Glucose Transport; 7.3. Vascular Permeability; 7.4. Energy Considerations
7.5. Transport through Porous Media7.6. Microcirculatory Heat Transfer; 7.7. Cell Transfer During Inflammation/White Blood Cell Rolling and Sticking; Chapter 8. The Lymphatic System; 8.1. Lymphatic Physiology; 8.2. Lymph Formation; 8.3. Flow Through the Lymphatic System; 8.4. Disease Conditions; Chapter 9. Flow in the Lungs; 9.1. Lung Physiology; 9.2. Elasticity of the Lung Blood Vessels and Alveoli; 9.3. Pressure-Volume Relationship for Air Flow in the Lungs; 9.4. Oxygen/Carbon Dioxide Diffusion; 9.5. Oxygen/Carbon Dioxide Transport in the Blood; 9.6. Compressible Fluid Flow

Control code: ocn757260981

Dimensions: unknown

Extent: 1 online resource (829 p.)

Form of item: online

Isbn: 9780123813848

Specific material designation: remote

Stock number: 1092643:10872991

System control number: (OCoLC)757260981

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