Verfügbarkeit: Biofluid mechanics

Biofluid mechanics:

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Bibliographische Detailangaben
1. Verfasser:	Mazumdar, Jagannath (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Singapur World Scientific 2016
Ausgabe:	Second Edition
Schlagworte:	Hämodynamik Biofluidmechanik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	xvi, 247 Seiten Diagramme
ISBN:	9789814713979

Internformat

MARC


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Datensatz im Suchindex

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adam_text	CONTENTS it PREFACE TO THE SECOND EDITION xiii PREFACE TO THE FIRST EDITION xv Chapter 1 INTRODUCTION 1.1 A Basie Introduction................................. 1 1.1.1 Viscosity.......................................2 1.1.2 Laminar and Turbulent Flow......................3 1.1.3 Compressible and Incompressible Flow............3 1.2 Basic Equations of Fluid Mechanics....................4 1.2.1 Continuity Equation.............................4 1.2.2 Equations of Motion.............................6 1.3 Simplification of Basic Equations................... 10 1.4 Initial and Boundary Conditions..................... 13 1.5 Dimensional Analysis in Fluid Mechanics............. 14 Chapter 2 CIRCULATORY BIOFLUID MECHANICS 2.1 General Introduction................................ 17 2.2 The Circulatory System.............................. 18 2.2.1 Introduction.................................. 18 2.2.2 Systemic and Pulmonary Circulations........... 18 2.2.3 The Circulation in the Heart.................. 21 2.3 Diseases Related to Circulation..................... 25 Chapter 3 BLOOD RHEOLOGY: PROPERTIES OF FLOWING BLOOD 3.1 General Introduction................................ 29 3.2 Blood Composition................................... 30 3.3 Structure of Blood.................................. 31 3.4 Flow Properties of Blood............................ 33 3.4.1 Viscosity of Blood............................ 33 3.4.2 Yield Stress of Blood......................... 34 3.5 Blood Vessel Structure.............................. 36 3.5.1 Arteries and Arterioles........................37 3.5.2 Veins and Venules............................. 37 vii 37 37 38 38 39 39 39 41 41 42 44 44 45 48 48 52 56 59 61 63 65 69 77 78 78 79 80 80 81 81 81 82 85 88 Biofluid Mechanics 3.5.3 Capillaries.................................... 3.6 Diseases Related to Obstruction of Blood Flow......... 3.6.1 Thrombus Formation............................. 3.6.2 Embolus........................................ 3.6.3 Compression.................................... 3.6.4 Structural Changes............................. 3.6.5 Vasospasms .................................... MODELS OF BIOFLUID FLOWS 4.1 Flows in Pipes and Ducts ............................. 4.1.1 Introduction................................... 4.1.2 Developing and Fully Developed Flow............ 4.2 Models of Blood Flows................................. 4.2.1 Intro duction.................................. 4.2.2 Poiseuille’s Flow.............................. 4.3 Consequence of Poiseuille’s Flow...................... 4.4 Applications of Poiseuille’s Law for the Study of Blood Flow 4.5 Pulsatile Flow........................................ 4.6 Further Discussion on Pulsatile Flow.................. 4.7 The Pulse Wave........................................ 4.8 Mones-Korteweg Expression for Wave Velocity in an Inviscid Fluid-Filled Elastic Cylindrical Tube........ 4.9 Applications in the Cardiovascular System............. 4.10 Wave Propagation Accounting for Viscosity and its Application to Cardiac Output Determination........... 4.11 Flow Through a Converging-Diverging Duct............. NON-NEWTONIAN FLUIDS 5.1 General Introduction.................................. 5.2 Classification of Non-Newtonian Fluids................ 5.3 Time Independent Fluids............................... 5.3.1 Power-Law Fluids............................... 5.3.2 Bingham Fluids................................. 5.3.3 Other Special Non-Newtonian Fluids............. 5.4 Time Dependent Fluids ................................ 5.5 Viscoelastic Fluids................................... 5.6 Laminar Flow of Non-Newtonian Fluids.................. 5.6.1 Power-Law Model................................ 5.6.2 Herschel-Bulkley Model......................... 5.6.3 Casson Model................................... Contents IX 5.6.4 Further Analysis of the Casson Model.............. 91 5.7 Flow of Non-Newtonian Fluids in Elastic Tubes........... 92 5.7.1 Power-Law Model Using Linear Elastic Theory .... 94 5.7.2 Casson Model Using Linear Elastic Theory..........100 Chapter 6 MODELS FOR OTHER FLOWS 6.1 Introduction............................................103 6.2 The Krogh Model of Oxygen Diffusion from Blood Vessel to Tissue........................................104 6.2.1 Capillary Blood Vessel Region.....................106 6.2.2 Tissue Region.................................... 107 6.2.3 Boundary Conditions...............................107 6.2.4 Krogh’s Steady-State Model........................107 6.2.5 Blum s Steady-State Model.........................109 6.3 Fluid Flow in Kidneys...................................Ill 6.3.1 Introduction . ................................. Ill 6.3.2 Diffusion Process in the Haemodialyser ...........Ill 6.3.3 Flow in the Renal Tubule..........................114 6.4 Flow Measurement by Indicator Dilution Method...........117 6.4.1 Introduction......................................117 6.4.2 Measurement of Flow...............................117 6.5 Peristaltic Flows ......................................120 6.5.1 Introduction......................................120 6.5.2 Peristaltic Motion in a Cylindrical Tube..........120 6.5.3 Long-Wavelength Analysis..........................123 Chapter 7 FLUID MECHANICS OF HEART VALVES 7.1 General Introduction....................................127 7.2 A Brief Description of the Heart Valves.................129 7.3 Prosthetic Heart Valves ................................132 7.3.1 History of Valve Replacement......................132 7.3.2 Thrombosis and Thromboembolism....................135 7.3.3 Haemolysis ..................................... 137 7.3.4 Endothelial Damage................................138 7.3.5 Tissue Overgrowth.................................138 Chapter 8 COMPUTATIONAL BIOFLUID MECHANICS 8.1 Introduction............................................139 8.2 Mathematical Modelling..................................141 8.3 Laminar Versus Turbulent Flow Models....................143 X Bio fluid Mechanics 8.4 Turbulence Models........................................144 8.5 Computational Methods for the Study of Flow Through Prosthetic Heart Valves .........................146 8.6 Laminar Flow Model Through a Prosthesis..................149 8.6.1 Problem Formulation................................149 8.6.2 Finite Difference Formulation......................153 8.6.3 Numerical Solution.................................155 8.7 Turbulent Flow Model Through a Ball Prosthesis...........160 8.7.1 Introduction.......................................160 8.7.2 Model Formulation .................................160 8.7.3 Coordinate System Generation.......................167 8.7.4 Finite Difference Formulation......................170 8.7.5 Numerical Solution.................................171 8.7.6 Remark.............................................174 8.8 Computational Fluid Dynamics Applications to Cardiovascular Health Assessment ........................176 8.8.1 Introduction.......................................176 8.8.2 Computing Framework for the Assessment of Haemodynamics................................. 179 8.8.3 Medical Imaging and Anatomical Reconstruction ... 180 8.8.4 Reconstructing Surface Mesh and Boundary Conditions................................183 8.8.5 Haemodynamics Performance Indicators...............187 8.8.6 Concluding Remarks ................................190 Chapter 9 TISSUE ENGINEERING 9.1 Introduction.............................................193 9.2 Cartilage Tissue Engineering.............................194 9.2.1 Introduction.......................................194 9.2.2 Collagen...........................................196 9.2.3 Proteoglycan.......................................197 9.2.4 Chondrocyte........................................197 9.3 Mathematical Model of the ECM in Tissue Engineering Study ................................198 9.3.1 Chemical Potential ................................201 9.3.2 Entropie Contributions to Chemical Potentials (//*?)..................................201 9.3.3 Internal Energy Contributions to Chemical Potentials (¿¿j)..........................202 Contents xi 9.3.4 Interface Conditions..............................203 9.3.5 Ionised-species Chemistry.........................204 9.4 Experimental Methods...................................204 9.4.1 Comparison of Model Outcomes with Experiments: Parameter Estimation.................206 9.5 Effect of Structural and Environmental Fluctuations on Equilibrium ECM Configuration........................207 9.5.1 Effects of Changes in Ionisation, Cross-links ....207 9.5.2 Effects of Changes in the Bath Salt Concentration . . 209 9.5.3 Effects of Changes in the Bath pH.................209 9.5.4 Concluding Remarks .............................. 211 Chapter 10 CELLULAR ENGINEERING 10.1 Introduction...........................................213 10.2 System Dynamical Model Building for the Epigenetic Mechanism..................................215 10.3 Ontogenesis............................................220 10.3.1 Steady State and Linearisation ................222 10.3.2 Pattern in Cylindrical Shaped Model Embryo . . . 224 10.4 Concluding Remarks on Tissue Engineering (TE) and Cellular Engineering (CE).........................231 GLOSSARY 233 BIBLIOGRAPHY 237 INDEX 245
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spelling	Mazumdar, Jagannath aut Biofluid mechanics Jagannath Mazumdar Second Edition Singapur World Scientific 2016 xvi, 247 Seiten Diagramme txt rdacontent n rdamedia nc rdacarrier Hämodynamik (DE-588)4022810-1 gnd rswk-swf Biofluidmechanik (DE-588)4203925-3 gnd rswk-swf Biofluidmechanik (DE-588)4203925-3 s DE-604 Hämodynamik (DE-588)4022810-1 s Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028913616&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Mazumdar, Jagannath Biofluid mechanics Hämodynamik (DE-588)4022810-1 gnd Biofluidmechanik (DE-588)4203925-3 gnd
subject_GND	(DE-588)4022810-1 (DE-588)4203925-3
title	Biofluid mechanics
title_auth	Biofluid mechanics
title_exact_search	Biofluid mechanics
title_full	Biofluid mechanics Jagannath Mazumdar
title_fullStr	Biofluid mechanics Jagannath Mazumdar
title_full_unstemmed	Biofluid mechanics Jagannath Mazumdar
title_short	Biofluid mechanics
title_sort	biofluid mechanics
topic	Hämodynamik (DE-588)4022810-1 gnd Biofluidmechanik (DE-588)4203925-3 gnd
topic_facet	Hämodynamik Biofluidmechanik
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=028913616&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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