Kindly note that we have put a lot of effort into researching the best books on Biomedical Fluid Dynamics subject and came out with a recommended list of top 10 best books. The table below contains the Name of these best books, their authors, publishers and an unbiased review of books on "Biomedical Fluid Dynamics" as well as links to the Amazon website to directly purchase these books. As an Amazon Associate, we earn from qualifying purchases, but this does not impact our reviews, comparisons, and listing of these top books; the table serves as a ready reckoner list of these best books.
|1. “Fundamental Cardiovascular and Pulmonary Physiology” by J F Green|
|2. “Samson Wright`s Applied Physiology” by C A Keele and N Joels|
|3. “Circulatory System Dynamics” by A Noordergraft|
|4. “Clinical Haemorheology” by F Gotoh|
| 5. “Biofluid Mechanics, Second Edition: An Introduction to Fluid Mechanics, Macrocirculation, and Microcirculation (Biomedical Engineering)” by David Rubenstein
“Biofluid Mechanics, Second Edition: An Introduction to Fluid Mechanics, Macrocirculation, and Microcirculation (Biomedical Engineering)” Book Review: In this book, the author 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 chapter of the book contains discussions with equations, state equations are derived and then their usage is shown with the help of examples. Clinical applications, worked examples, and end of chapter problems helps to present the applications of fluid mechanics to biomedical engineering situations. A chapter on experimental techniques provides good knowledge for future researches in the subject. It also uses language and math for undergraduate students to learn effectively. All the engineering concepts and equations are developed within a biological context. Clinical applications of the subject are discussed thoroughly in the book.
| 6. “Computational Fluid and Particle Dynamics in the Human Respiratory System (Biological and Medical Physics, Biomedical Engineering)” by Jiyuan Tu and Kiao Inthavong
“Computational Fluid and Particle Dynamics in the Human Respiratory System (Biological and Medical Physics, Biomedical Engineering)” Book Review: This book provides a wider view and knowledge of the human respiratory system which is mainly targeted towards researchers, engineers, scientists, and health practitioners. As traditional research methods in the human respiratory system are quite challenging, this book provides chapters on Recent advances in medical imaging and computational fluid dynamics (CFD) on which the latest research is going on. By segregating the topics into understandable parts, the book deals with advanced topics like physiology of the respiratory system, fluid dynamics and advanced CFD modeling tools. It also contains a brief introduction to the physics of the respiratory system and an overview of computational methods. Also provided in the book are computational visualizations which will enhance the understanding of the subject.
| 7. “Biomedical Mass Transport and Chemical Reaction: Physicochemical Principles and Mathematical Modeling” by James S Ultman and Harihara Baskaran
“Biomedical Mass Transport and Chemical Reaction: Physicochemical Principles and Mathematical Modeling” Book Review: This book is mainly designed for students whose educational background belongs to physicochemical aspects of biomedical systems. The textbook combines engineering principles knowledge with relevant biomedical applications at the cellular, tissue, organ, and whole-body levels. These applications include basic and advanced concepts, targeted mainly for graduates as well as advanced undergraduate engineering students. The main topics contained in the book are : basic biological and modeling concepts, overview of the thermodynamics that relate to interfacial, membrane and chemical reaction equilibria, rate equations to analyze mass diffusion and chemical reactions, basic transport models in fluids and membranes, multi-dimensional transport of molecules and cell population dynamics, compartment models and analyses, detailed models related to treatment of tissue and organ dysfunction, delivery and distribution of drugs, and interpretation of biomedical measurements.
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| 8. “Biofluid Mechanics in Cardiovascular Systems (McGraw-Hill’s Biomedical Engineering)” by Lee Waite
“Biofluid Mechanics in Cardiovascular Systems (McGraw-Hill’s Biomedical Engineering)” Book Review: This book takes an interdisciplinary approach to the topic by combining engineering principles with cardiopulmonary anatomy and physiology to provide biomedical engineers essential background for designing and implementing arterial grafts, anastomosis devices, and heart valves. This book covers detailed theories as well as practical application to biological functions. Important topics covered in the book includes presenting an engineering analysis of the cardiovascular system relevant to the pathophysiology, diagnosis, prevention, and treatment of cardiovascular diseases, an outlook on biofluidics from an engineering perspective rather than a clinical one, functional anatomy and physiology of the human heart, pressure-flow relationship in arteries and the elastic properties of arterial walls, application of imaging techniques on left ventricular dynamics, theoretical and experimental studies of pulsatile flow in large vessels.
| 9. “Hemo-Dynamics (Biological and Medical Physics, Biomedical Engineering)” by Mair Zamir
“Hemo-Dynamics (Biological and Medical Physics, Biomedical Engineering)” Book Review: Concepts like fundamental mathematics underlying fluid flow and then applying those in a straightforward way to pulsatile blood flow in all its complexity are covered extensively in the book. The author assumes the readers to possess basic knowledge of calculus in order to grasp advanced concepts such as the Navier-Stokes equations. It explores the topics of the cardiovascular system and blood, and presents a detailed overview on how they interact to generate flow and pressure. Keeping in mind the philosophical underpinnings of engineering, the author has provided an appropriate format, text, equations and the figures. This book is for those who want to explore and study about the cardiovascular system from a mechanical and modeling perspective.
| 10. “The Physics of Coronary Blood Flow (Biological and Medical Physics, Biomedical Engineering)” by M Zamir
“The Physics of Coronary Blood Flow (Biological and Medical Physics, Biomedical Engineering)” Book Review: This book provides an overview of the biomedical engineering subject which is vast and dynamic. Important topics provided in the book are molecular, membrane, and mathematical biophysics, photosynthetic – energy harvesting and conversion, information processing, physical principles of genetics, sensory communications, automata networks, neural networks, and cellular automata. Other advanced topics include molecular electronic components and devices, biosensors, medicine, imaging, physical principles of renewable energy production, advanced prostheses, and environmental control and engineering.
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