25% Off Pre-Order Books with Code: PREORDER25 for Premium & Reward Members Shop Now
Micro- and Nanoscale Fluid Mechanics: Transport in Microfluidic Devices

Micro- and Nanoscale Fluid Mechanics: Transport in Microfluidic Devices

by Brian J. Kirby
Micro- and Nanoscale Fluid Mechanics: Transport in Microfluidic Devices
Add to Wishlist
ISBN-10:
1107617200
ISBN-13:
9781107617209
Pub. Date:
08/12/2013
Publisher:
Cambridge University Press
ISBN-10:
1107617200
ISBN-13:
9781107617209
Pub. Date:
08/12/2013
Publisher:
Cambridge University Press
Micro- and Nanoscale Fluid Mechanics: Transport in Microfluidic Devices

Micro- and Nanoscale Fluid Mechanics: Transport in Microfluidic Devices

by Brian J. Kirby

Overview

This text focuses on the physics of fluid transport in micro- and nanofabricated liquid-phase systems, with consideration of gas bubbles, solid particles, and macromolecules. This text was designed with the goal of bringing together several areas that are often taught separately – namely, fluid mechanics, electrodynamics, and interfacial chemistry and electrochemistry – with a focused goal of preparing the modern microfluidics researcher to analyze and model continuum fluid mechanical systems encountered when working with micro- and nanofabricated devices. This text is not a summary of current research in the field, and it omits any discussion of microfabrication techniques or any attempt to summarize the technological state of the art. This text serves as a useful reference for practicing researchers but is designed primarily for classroom instruction. Worked sample problems are inserted throughout to assist the student, and exercises are included at the end of each chapter to facilitate use in classes.

Product Details

ISBN-13: 9781107617209
Publisher: Cambridge University Press
Publication date: 08/12/2013
Edition description: Reprint
Pages: 536
Sales rank: 721,656
Product dimensions: 7.00(w) x 9.90(h) x 1.10(d)

About the Author

Brian J. Kirby currently directs the Micro/Nanofluidics Laboratory in the Sibley School of Mechanical and Aerospace Engineering at Cornell University. He joined the school in August 2004. Previous to that, he was a Senior Member of the Technical Staff in the Microfluidics Department at Sandia National Laboratories in Livermore, California, where he worked from 2001 to 2004 on microfluidic systems, with applications primarily to counterbioterrorism. Professor Kirby received a 2002 R&D Top 100 Invention Award for work on microvalves for high-pressure fluid control, a 2004 JD Watson Investigator Award for microdevices for protein production and analysis, and a 2006 Presidential Early Career Award for Scientists and Engineers (PECASE) for nanoscale electrokinetics and bioagent detection. He teaches both macroscale and microscale fluid mechanics, and received the 2008 Mr and Mrs Robert F. Tucker Excellence in Teaching Award at Cornell University.

Table of Contents

1. Kinematics, conservation equations, and boundary conditions for incompressible flow; 2. Unidirectional flow; 3. Hydraulic circuit analysis; 4. Passive scalar transport: dispersion, patterning, and mixing; 5. Electrostatics and electrodynamics; 6. Electroosmosis; 7. Potential fluid flow; 8. Stikes flow; 9. The diffuse structure of the electrical double layer; 10. Zeta potential in microchannels; 11. Species and charge transport; 12. Microchip chemical separations; 13. Particle electrophoresis; 14. DNA transport and analysis; 15. Nanofluidics: fluid and current flow in molecular-scale and thick-double-layer systems; 16. AC electrokinetics and the dynamics of diffuse charge; 17. Particle and droplet actuation: dielectrophoresis, magnetophoresis, and digital microfluidics; Appendices: A. Units and fundamental constants; B. Properties of electrolyte solutions; C. Coordinate systems and vector calculus; D. Governing equation reference; E. Nondimensionalization and characteristic parameters; F. Multipolar solutions to the Laplace and Stokes equations; G. Complex functions; H. Interaction potentials: atomistic modeling of solvents and solutes.
From the B&N Reads Blog
Page 1 of

Related Subjects

Science & Technology
Engineering
Biology & Life Sciences
Mechanical Engineering & Dynamics
Biology
Biology - Biotechnology
Mechanical Engineering - General & Miscellaneous
Science & Technology
Engineering
Biology & Life Sciences
Mechanical Engineering & Dynamics
Biology
Biology - Biotechnology
Mechanical Engineering - General & Miscellaneous

Customer Reviews