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Full Description
This book provides readers from academia and industry with an up-to-date overview of important advances in the field, dealing with such fundamental fluid mechanics problems as nonlinear transport phenomena and optimal control of mixing at the micro- and nanoscale. The editors provide both in-depth knowledge of the topic as well as vast experience in guiding an expert team of authors. The review style articles offer a coherent view of the micromixing methods, resulting in a much-needed synopsis of the theoretical models needed to direct experimental research and establish engineering principles for future applications. Since these processes are governed by nonlinear phenomena, this book will appeal to readers from both communities: fluid mechanics and nonlinear dynamics.
Contents
Introduction Mixing in laminar fluid flows: From microfluidics to oceanic currents (R.O. Grigoriev, Georgia Institute of Technology) 1. Resonance and Mixing in near-integrable volume-preserving systems (D. Vainchtein, Temple University) 2. Fluid stirring in a tilted rotating tank (Th. Ward, North Carolina State University) 3. Lagrangian Coherent Structures (Sh.C. Shadden, Illinois Institute of Technology) 4. Interfacial Transfer from Stirred Laminar Flows (J.D. Kirtland, Dordt College, and A.D. Stroock, Cornell University) 5. The effects of laminar mixing on reaction fronts and patterns (T. Solomon, Bucknell University) 6. Microfluidic flows of viscoelastic fluid (M.S.N. Oliveira, M.A. Alves, F.T. Pinho, University of Porto)
