Transport Phenomena and Living Systems
Author: Edwin N. Lightfoot
Publisher: Wiley-Interscience
Published: 1973
Total Pages: 514
ISBN-13:
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Transport Phenomena in Biological Systems
Author: George A. Truskey
Publisher: Prentice Hall
Published: 2009
Total Pages: 889
ISBN-13: 0131569880
DOWNLOAD EBOOKFor one-semester, advanced undergraduate/graduate courses in Biotransport Engineering. Presenting engineering fundamentals and biological applications in a unified way, this text provides students with the skills necessary to develop and critically analyze models of biological transport and reaction processes. It covers topics in fluid mechanics, mass transport, and biochemical interactions, with engineering concepts motivated by specific biological problems.
Biotransport: Principles and Applications
Author: Robert J. Roselli
Publisher: Springer Science & Business Media
Published: 2011-06-10
Total Pages: 1293
ISBN-13: 1441981195
DOWNLOAD EBOOKIntroduction to Biotransport Principles is a concise text covering the fundamentals of biotransport, including biological applications of: fluid, heat, and mass transport.
Modeling of Microscale Transport in Biological Processes
Author: Sid M. Becker
Publisher: Academic Press
Published: 2017-01-12
Total Pages: 0
ISBN-13: 9780128045954
DOWNLOAD EBOOKModeling of Microscale Transport in Biological Processes provides a compendium of recent advances in theoretical and computational modeling of biotransport phenomena at the microscale. The simulation strategies presented range from molecular to continuum models and consider both numerical and exact solution method approaches to coupled systems of equations. The biological processes covered in this book include digestion, molecular transport, microbial swimming, cilia mediated flow, microscale heat transfer, micro-vascular flow, vesicle dynamics, transport through bio-films and bio-membranes, and microscale growth dynamics. The book is written for an advanced academic research audience in the fields of engineering (encompassing biomedical, chemical, biological, mechanical, and electrical), biology and mathematics. Although written for, and by, expert researchers, each chapter provides a strong introductory section to ensure accessibility to readers at all levels.
Principles and Models of Biological Transport
Author: Morton H. Friedman
Publisher: Springer Science & Business Media
Published: 2012-12-06
Total Pages: 274
ISBN-13: 3662024675
DOWNLOAD EBOOKThis text is designed for a first course in biological mass transport, and the material in it is presented at a level that is appropriate to advanced undergraduates or early graduate level students. Its orientation is somewhat more physical and mathematical than a biology or standard physiology text, reflecting its origins in a transport course that I teach to undergraduate (and occasional graduate) biomedical engineering students in the Whiting School of Engineering at Johns Hopkins. The audience for my cours- and presumably for this text - also includes chemical engineering undergraduates concentrating in biotechnology, and graduate students in biophysics. The organization of this book differs from most texts that at tempt to present an engineering approach to biological transport. What distinguishes biological transport from other mass transfer processes is the fact that biological transport is biological. Thus, we do not start with the engineering principles of mass transport (which are well presented elsewhere) and then seek biological ap plications of these principles; rather, we begin with the biological processes themselves, and then develop the tools that are needed to describe them. As a result, more physiology is presented in this text than is often found in books dealing with engineering applica tions in the life sciences.
Heat Transfer and Fluid Flow in Biological Processes
Author: Sid M. Becker
Publisher: Academic Press
Published: 2014-12-31
Total Pages: 428
ISBN-13: 0124079008
DOWNLOAD EBOOKHeat Transfer and Fluid Flow in Biological Processes covers emerging areas in fluid flow and heat transfer relevant to biosystems and medical technology. This book uses an interdisciplinary approach to provide a comprehensive prospective on biofluid mechanics and heat transfer advances and includes reviews of the most recent methods in modeling of flows in biological media, such as CFD. Written by internationally recognized researchers in the field, each chapter provides a strong introductory section that is useful to both readers currently in the field and readers interested in learning more about these areas. Heat Transfer and Fluid Flow in Biological Processes is an indispensable reference for professors, graduate students, professionals, and clinical researchers in the fields of biology, biomedical engineering, chemistry and medicine working on applications of fluid flow, heat transfer, and transport phenomena in biomedical technology. - Provides a wide range of biological and clinical applications of fluid flow and heat transfer in biomedical technology - Covers topics such as electrokinetic transport, electroporation of cells and tissue dialysis, inert solute transport (insulin), thermal ablation of cancerous tissue, respiratory therapies, and associated medical technologies - Reviews the most recent advances in modeling techniques
Problems for Biomedical Fluid Mechanics and Transport Phenomena
Author: Mark Johnson
Publisher: Cambridge University Press
Published: 2014
Total Pages: 183
ISBN-13: 1107037697
DOWNLOAD EBOOKThis unique resource offers over two hundred well-tested bioengineering problems for teaching and examinations. Solutions are available to instructors online.
Nano and Bio Heat Transfer and Fluid Flow
Author: Majid Ghassemi
Publisher: Academic Press
Published: 2017-03-15
Total Pages: 162
ISBN-13: 0128038527
DOWNLOAD EBOOKNano and Bio Heat Transfer and Fluid Flow focuses on the use of nanoparticles for bio application and bio-fluidics from an engineering perspective. It introduces the mechanisms underlying thermal and fluid interaction of nanoparticles with biological systems. This book will help readers translate theory into real world applications, such as drug delivery and lab-on-a-chip. The content covers how transport at the nano-scale differs from the macro-scale, also discussing what complications can arise in a biologic system at the nano-scale. It is ideal for students and early career researchers, engineers conducting experimental work on relevant applications, or those who develop computer models to investigate/design these systems. Content coverage includes biofluid mechanics, transport phenomena, micro/nano fluid flows, and heat transfer. - Discusses nanoparticle applications in drug delivery - Covers the engineering fundamentals of bio heat transfer and fluid flow - Explains how to simulate, analyze, and evaluate the transportation of heat and mass problems in bio-systems
Biosimulation
Author: Daniel A. Beard
Publisher: Cambridge University Press
Published: 2012-04-12
Total Pages: 321
ISBN-13: 0521768233
DOWNLOAD EBOOKA hands-on guide to devising, designing and analyzing simulations of biophysical processes for applications in biological and biomedical sciences. Practical examples are given throughout, representing real-world case studies of key application areas, and all data and complete codes for simulation and data analysis are provided online.
The Physics of Living Systems
Author: Fabrizio Cleri
Publisher: Springer
Published: 2016-10-08
Total Pages: 635
ISBN-13: 3319306472
DOWNLOAD EBOOKIn this book, physics in its many aspects (thermodynamics, mechanics, electricity, fluid dynamics) is the guiding light on a fascinating journey through biological systems, providing ideas, examples and stimulating reflections for undergraduate physics, chemistry and life-science students, as well as for anyone interested in the frontiers between physics and biology. Rather than introducing a lot of new information, it encourages young students to use their recently acquired knowledge to start seeing the physics behind the biology. As an undergraduate textbook in introductory biophysics, it includes the necessary background and tools, including exercises and appendices, to form a progressive course. In this case, the chapters can be used in the order proposed, possibly split between two semesters. The book is also an absorbing read for researchers in the life sciences who wish to refresh or go deeper into the physics concepts gleaned in their early years of scientific training. Less physics-oriented readers might want to skip the first chapter, as well as all the "gray boxes" containing the more formal developments, and create their own á-la-carte menu of chapters.
