Problems for Biomedical Fluid Mechanics and Transport Phenomena
Title | Problems for Biomedical Fluid Mechanics and Transport Phenomena PDF eBook |
Author | Mark Johnson |
Publisher | Cambridge University Press |
Pages | 183 |
Release | 2014 |
Genre | Medical |
ISBN | 1107037697 |
This unique resource offers over two hundred well-tested bioengineering problems for teaching and examinations. Solutions are available to instructors online.
Basic Transport Phenomena In Biomedical Engineering
Title | Basic Transport Phenomena In Biomedical Engineering PDF eBook |
Author | Ronald L. Fournier |
Publisher | CRC Press |
Pages | 336 |
Release | 1998-08-01 |
Genre | Medical |
ISBN | 9781560327080 |
This text combines the basic principles and theories of transport in biological systems with fundamental bioengineering. It contains real world applications in drug delivery systems, tissue engineering, and artificial organs. Considerable significance is placed on developing a quantitative understanding of the underlying physical, chemical, and biological phenomena. Therefore, many mathematical methods are developed using compartmental approaches. The book is replete with examples and problems.
Transport Phenomena in Biomedical Engineering: Artifical organ Design and Development, and Tissue Engineering
Title | Transport Phenomena in Biomedical Engineering: Artifical organ Design and Development, and Tissue Engineering PDF eBook |
Author | Kal Renganathan Sharma |
Publisher | McGraw Hill Professional |
Pages | 510 |
Release | 2010-07-21 |
Genre | Technology & Engineering |
ISBN | 0071663983 |
A Cutting-Edge Guide to Applying Transport Phenomena Principles to Bioengineering Systems Transport Phenomena in Biomedical Engineering: Artificial Order Design and Development and Tissue Engineering explains how to apply the equations of continuity, momentum, energy, and mass to human anatomical systems. This authoritative resource presents solutions along with term-by-term medical significance. Worked exercises illustrate the equations derived, and detailed case studies highlight real-world examples of artificial organ design and human tissue engineering. Coverage includes: Fundamentals of fluid mechanics and principles of molecular diffusion Osmotic pressure, solvent permeability, and solute transport Rheology of blood and transport Gas transport Pharmacokinetics Tissue design Bioartificial organ design and immunoisolation Bioheat transport 541 end-of-chapter exercises and review questions 106 illustrations 1,469 equations derived from first principles
Advanced Transport Phenomena
Title | Advanced Transport Phenomena PDF eBook |
Author | P. A. Ramachandran |
Publisher | Cambridge University Press |
Pages | 805 |
Release | 2014-09-25 |
Genre | Science |
ISBN | 0521762618 |
Integrated, modern approach to transport phenomena for graduate students, featuring examples and computational solutions to develop practical problem-solving skills.
Biofluid Mechanics
Title | Biofluid Mechanics PDF eBook |
Author | Wei Yin |
Publisher | Academic Press |
Pages | 411 |
Release | 2011-11-02 |
Genre | Science |
ISBN | 0123813840 |
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 future research efforts in the subject area. - Uses language and math that is appropriate and conducive for undergraduate learning, containing many worked examples and end of chapter problems - All engineering concepts and equations are developed within a biological context - Covers topics in the traditional biofluids curriculum, as well as addressing other systems in the body that can be described by biofluid mechanics principles, such as air flow through the lungs, joint lubrication, intraocular fluid movement, and renal transport - Clinical applications are discussed throughout the book, providing practical applications for the concepts discussed.
Advanced Transport Phenomena
Title | Advanced Transport Phenomena PDF eBook |
Author | John C. Slattery |
Publisher | Cambridge University Press |
Pages | 735 |
Release | 1999-07-13 |
Genre | Technology & Engineering |
ISBN | 1316583902 |
The term 'transport phenomena' describes the fundamental processes of momentum, energy, and mass transfer. This text provides a thorough discussion of transport phenomena, laying the foundation for understanding a wide variety of operations used by chemical engineers. The book is arranged in three parallel parts covering the major topics of momentum, energy, and mass transfer. Each part begins with the theory, followed by illustrations of the way the theory can be used to obtain fairly complete solutions, and concludes with the four most common types of averaging used to obtain approximate solutions. A broad range of technologically important examples, as well as numerous exercises, are provided throughout the text. Based on the author's extensive teaching experience, a suggested lecture outline is also included. This book is intended for first-year graduate engineering students; it will be an equally useful reference for researchers in this field.
Transport Phenomena Fundamentals
Title | Transport Phenomena Fundamentals PDF eBook |
Author | Joel L. Plawsky |
Publisher | CRC Press |
Pages | 863 |
Release | 2020-02-27 |
Genre | Science |
ISBN | 1351624873 |
The fourth edition of Transport Phenomena Fundamentals continues with its streamlined approach to the subject, based on a unified treatment of heat, mass, and momentum transport using a balance equation approach. The new edition includes more worked examples within each chapter and adds confidence-building problems at the end of each chapter. Some numerical solutions are included in an appendix for students to check their comprehension of key concepts. Additional resources online include exercises that can be practiced using a wide range of software programs available for simulating engineering problems, such as, COMSOL®, Maple®, Fluent, Aspen, Mathematica, Python and MATLAB®, lecture notes, and past exams. This edition incorporates a wider range of problems to expand the utility of the text beyond chemical engineering. The text is divided into two parts, which can be used for teaching a two-term course. Part I covers the balance equation in the context of diffusive transport—momentum, energy, mass, and charge. Each chapter adds a term to the balance equation, highlighting that term's effects on the physical behavior of the system and the underlying mathematical description. Chapters familiarize students with modeling and developing mathematical expressions based on the analysis of a control volume, the derivation of the governing differential equations, and the solution to those equations with appropriate boundary conditions. Part II builds on the diffusive transport balance equation by introducing convective transport terms, focusing on partial, rather than ordinary, differential equations. The text describes paring down the full, microscopic equations governing the phenomena to simplify the models and develop engineering solutions, and it introduces macroscopic versions of the balance equations for use where the microscopic approach is either too difficult to solve or would yield much more information that is actually required. The text discusses the momentum, Bernoulli, energy, and species continuity equations, including a brief description of how these equations are applied to heat exchangers, continuous contactors, and chemical reactors. The book introduces the three fundamental transport coefficients: the friction factor, the heat transfer coefficient, and the mass transfer coefficient in the context of boundary layer theory. Laminar flow situations are treated first followed by a discussion of turbulence. The final chapter covers the basics of radiative heat transfer, including concepts such as blackbodies, graybodies, radiation shields, and enclosures.