Biological and Bio-Inspired Fluid Dynamics: Theory and Application

✍ Scribed by David E. Rival

Publisher: Springer
Year: 2022
Tongue: English
Leaves: 187
Category: Library

No coin nor oath required. For personal study only.

✦ Synopsis

This text provides the reader with tools necessary to study biological and bio-inspired flows, all the while developing an appreciation for their evolutionary and engineering constraints. It is suitable for students already exposed to introductory concepts in fluid mechanics and applied mechanics as a whole, but who would not need an advanced training in fluid mechanics per se. Currently no textbook exists that can take students from an introductory position in fluid mechanics to these contemporary topics of interest. The book is ideal for upper-level undergraduates and graduate students studying a range of engineering domains as well as biology, or even medicine.

✦ Table of Contents

Preface
Acknowledgments
Contents
1 Introduction
1.1 Human-Centric Perspective
1.2 Scaling in Biology and Fluid Dynamics
1.3 Contingency vs. Evolutionary Convergence
1.3.1 Organization and Biodiversity
1.3.2 Replaying Evolutionary History
1.3.3 Evolutionary Convergence
1.3.4 Biomimetics vs. Bioinspiration
1.4 Diversity vs. Generality
1.4.1 Speciation
1.4.2 Allometry
1.4.3 Abstraction
1.5 Observe, Speculate, and Hypothesize
References
2 Fundamentals
2.1 Vector Calculus
2.2 Continuity
2.2.1 Exercise with Continuity
2.3 Navier–Stokes Equation
2.4 Strain Rate and Vorticity
2.4.1 Exercise with Vorticity
2.5 Circulation and Model Vortices
Reference
3 Scaling
3.1 Normalization
3.2 Stokes Flow
3.2.1 Exercise for Stokes' Drag on a Sphere
3.3 Boundary-Layer Approximation
3.3.1 Exercise on Jellyfish Propulsion and Self-Similar Jets
3.3.2 Exercise on Bounding Flight and Wakes
3.3.3 Exercise with Unsteady Boundary Layer
3.4 Turbulent Boundary-Layer Equation
3.4.1 Exercise for Drag on Streamlined Bodies
References
4 Internal Flows
4.1 Couette Flow
4.2 Non-Newtonian and Viscoelastic Fluids
4.2.1 Exercise with a Rheometer
4.2.2 Modeling Blood: The Casson Model
4.3 Steady Duct Flow
4.4 Hagen–Poiseuille Flow
4.4.1 Exercise Comparing Flow Through Blood Vessels
4.5 Pipe Flow with Oscillating Pressure Gradient
4.5.1 Exercise on Pulsatile Blood Flow
4.6 Pulsatile Flow in Flexible Pipes
4.6.1 Exercise on Pressure Variation and Compliance in the Aortic Arch
4.7 Wave Propagation in Flexible Pipes
References
5 External Flows
5.1 Strip Theory
5.2 Kutta–Joukowski Theorem and the Generation of Lift
5.2.1 Exercise on the Origins of Flight
5.3 Unsteady (Planar) Wakes
5.3.1 Exercise on Simultaneous Generation of Lift and Thrust
5.4 Decomposition of Forces (Circulatory vs. Added Mass)
5.4.1 Circulatory Force
5.4.2 Added-Mass Force
5.4.3 Exercise on Gust Response of Milkweed Seed
5.5 Rapid Area Change
5.5.1 Exercise on Perching
5.6 Root and Tip Vortices
5.7 Helmholtz Vortex Laws and Wake Structure
5.8 Actuator-Disk Theory
5.9 Structural Loading on Appendages
5.9.1 Exercise for Albatross Take-Off Process
5.10 Fluid–Structure Interactions on Appendages
References

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