Description
Biofluid Dynamics
Principles and Selected Applications
Author: Kleinstreuer Clement
Language: EnglishSubjects for Biofluid Dynamics:
Keywords
Continuum Mechanics; Biological Transport Processes; Solute Transport; Continuum Mechanics Axioms; Flow Field Descriptions; Lagrangian Description; Eulerian Description; Mass Conservation; Force Balance Derivation; Energy Conservation; Basic Heat and Mass Transfer Applications; Turbulent Flow Equations; Differential Equations; Similarity Theory; Integral Methods
Publication date: 10-2019
· 15.6x23.4 cm · Paperback
Publication date: 04-2006
504 p. · 15.6x23.4 cm · Hardback
Description
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Requiring only an introductory background in continuum mechanics, including thermodynamics, fluid mechanics, and solid mechanics, Biofluid Dynamics: Principles and Selected Applications contains review, methodology, and application chapters to build a solid understanding of medical implants and devices. For additional assistance, it includes a glossary of biological terms, many figures illustrating theoretical concepts, numerous solved sample problems, and mathematical appendices. The text is geared toward seniors and first-year graduate students in engineering and physics as well as professionals in medicine and medical implant/device industries. It can be used as a primary selection for a comprehensive course or for a two-course sequence.
The book has two main parts: theory, comprising the first two chapters; and applications, constituting the remainder of the book. Specifically, the author reviews the fundamentals of physical and related biological transport phenomena, such as mass, momentum, and heat transfer in biomedical systems, and highlights complementary topics such as two-phase flow, biomechanics, and fluid-structure interaction. Two appendices summarize needed elements of engineering mathematics and CFD software applications, and these are also found in the fifth chapter. The application part, in form of project analyses, focuses on the cardiovascular system with common arterial diseases, organ systems, targeted drug delivery, and stent-graft implants.
Armed with Biofluid Dynamics, students will be ready to solve basic biofluids-related problems, gain new physical insight, and analyze biofluid dynamics aspects of biomedical systems.