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Transport Phenomena in Multiphase Flows electronic resource by Roberto Mauri.

By: Mauri, Roberto [author.]Contributor(s): SpringerLink (Online service)Material type: TextTextSeries: Fluid Mechanics and Its ApplicationsPublication details: Cham : Springer International Publishing : Imprint: Springer, 2015Description: XV, 459 p. 156 illus. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783319157931Subject(s): engineering | Chemical engineering | Fluids | Thermodynamics | Heat engineering | Heat transfer | Mass transfer | Biomedical engineering | Engineering | Engineering Thermodynamics, Heat and Mass Transfer | Fluid- and Aerodynamics | Industrial Chemistry/Chemical Engineering | Biomedical EngineeringDDC classification: 621.4021 LOC classification: TJ265QC319.8-338.5Online resources: Click here to access online
Contents:
Preface -- Thermodynamics and Evolution -- Statics of Fluids -- General Features of Fluid Mechanics -- Macroscopic Balances -- Laminar Flow Fields -- The Governing Equations of a Simple Fluid -- Unidirectional Flows -- Laminar Boundary Layer -- Heat Conduction -- Conduction with Heat Sources -- Macroscopic Energy Balance -- Time Dependent Heat Conduction -- Convective Heat Transport -- Constitutive Equations for Transport of Chemical Species -- Stationary Material Transport -- Non Stationary Material Transport -- Convective Material Transport -- Transport Phenomena in Turbulent Flow.- Free Convection -- Radiant Heat Transfer -- Anti diffusion -- Stationary Diffusion.- Appendices A – F -- Solutions of Problems - Background Reading -- Subject Index.
In: Springer eBooksSummary: This textbook provides a thorough presentation of the phenomena related to the transport of mass, momentum and energy.  It lays all the basic physical principles, then for the more advanced readers, it offers an in-depth treatment with advanced mathematical derivations and ends with some useful applications of the models and equations in specific settings. The important idea behind the book is to unify all types of transport phenomena, describing them within a common framework in terms of cause and effect, respectively represented by the driving force and the flux of the transported quantity. The approach and presentation are original in that the book starts with a general description of transport processes, providing the macroscopic balance relations of fluid dynamics and heat and mass transfer, before diving into the mathematical realm of continuum mechanics to derive the microscopic governing equations at the microscopic level. The book is a modular teaching tool and can be used either for an introductory or for an advanced graduate course. The last 6 chapters will be of interest to more advanced researchers who might be interested in particular applications in physics, mechanical engineering or biomedical engineering. All chapters are complemented with exercises that are essential to complete the learning process.
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Preface -- Thermodynamics and Evolution -- Statics of Fluids -- General Features of Fluid Mechanics -- Macroscopic Balances -- Laminar Flow Fields -- The Governing Equations of a Simple Fluid -- Unidirectional Flows -- Laminar Boundary Layer -- Heat Conduction -- Conduction with Heat Sources -- Macroscopic Energy Balance -- Time Dependent Heat Conduction -- Convective Heat Transport -- Constitutive Equations for Transport of Chemical Species -- Stationary Material Transport -- Non Stationary Material Transport -- Convective Material Transport -- Transport Phenomena in Turbulent Flow.- Free Convection -- Radiant Heat Transfer -- Anti diffusion -- Stationary Diffusion.- Appendices A – F -- Solutions of Problems - Background Reading -- Subject Index.

This textbook provides a thorough presentation of the phenomena related to the transport of mass, momentum and energy.  It lays all the basic physical principles, then for the more advanced readers, it offers an in-depth treatment with advanced mathematical derivations and ends with some useful applications of the models and equations in specific settings. The important idea behind the book is to unify all types of transport phenomena, describing them within a common framework in terms of cause and effect, respectively represented by the driving force and the flux of the transported quantity. The approach and presentation are original in that the book starts with a general description of transport processes, providing the macroscopic balance relations of fluid dynamics and heat and mass transfer, before diving into the mathematical realm of continuum mechanics to derive the microscopic governing equations at the microscopic level. The book is a modular teaching tool and can be used either for an introductory or for an advanced graduate course. The last 6 chapters will be of interest to more advanced researchers who might be interested in particular applications in physics, mechanical engineering or biomedical engineering. All chapters are complemented with exercises that are essential to complete the learning process.

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