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This textbook is designed to introduce the principles of fluid dynamics to students of environmental and aquatic sciences. Introduces the principles of fluid dynamics, follows with simple applications, and builds to more complex applications experienced in the field. Offers a unique, authoritative, and accessible treatment of the subject. Includes appropriate mathematical expressions without overburdening the reader with difficult or extensive notation.
Aquatic ecology. --- Finite element method. --- Fluid dynamics. --- Fluid mechanics -- Mathematical models. --- Geophysics -- Fluid models. --- Heat -- Transmission -- Mathematical models. --- Marine eutrophication. --- Aquatic ecology --- Fluid dynamics --- Marine eutrophication --- Earth & Environmental Sciences --- Ecology --- Aquatic biology --- Marine coastal eutrophication --- Eutrophication --- Dynamics --- Fluid mechanics --- 532 --- 532 Fluid mechanics in general. Mechanics of liquids (hydromechanics) --- Fluid mechanics in general. Mechanics of liquids (hydromechanics)
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681.3 <063> --- 51-7 --- 519.6 --- 681.3*J2 --- Computerwetenschap--Congressen --- Mathematical studies and methods in other sciences. Scientific mathematics. Actuarial mathematics. Biometrics. Econometrics etc. --- Computational mathematics. Numerical analysis. Computer programming --- Physical sciences and engineering (Computer applications) --- Fluid mechanics --- Plasma (Ionized gases) --- Meteorology --- Oceanography --- Mathematical models --- Data processing --- 681.3*J2 Physical sciences and engineering (Computer applications) --- 519.6 Computational mathematics. Numerical analysis. Computer programming --- 51-7 Mathematical studies and methods in other sciences. Scientific mathematics. Actuarial mathematics. Biometrics. Econometrics etc. --- Éléments finis, Méthode des --- Finite element method --- Analyse numérique. --- Numerical analysis --- Éléments finis, Méthode des. --- Finite element method. --- Numerical analysis. --- Analyse numérique --- Fluid mechanics - Mathematical models - Congresses --- Fluid mechanics - Data processing - Congresses --- Plasma (Ionized gases) - Mathematical models - Congresses --- Plasma (Ionized gases) - Data processing - Congresses --- Meteorology - Mathematical models - Congresses --- Meteorology - Data processing - Congresses --- Oceanography - Mathematical models - Congresses --- Oceanography - Data processing - Congresses --- Milieu continu
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Interfacial Fluid Mechanics: A Mathematical Modeling Approach provides an introduction to mathematical models of viscous flow used in rapidly developing fields of microfluidics and microscale heat transfer. The basic physical effects are first introduced in the context of simple configurations and their relative importance in typical microscale applications is discussed. Then,several configurations of importance to microfluidics, most notably thin films/droplets on substrates and confined bubbles, are discussed in detail. Topics from current research on electrokinetic phenomena, liquid flow near structured solid surfaces, evaporation/condensation, and surfactant phenomena are discussed in the later chapters. This book also: Discusses mathematical models in the context of actual applications such as electrowetting Includes unique material on fluid flow near structured surfaces and phase change phenomena Shows readers how to solve modeling problems related to microscale multiphase flows Interfacial Fluid Mechanics: A Mathematical Modeling Approach is an ideal book for applied math or engineering graduate students starting their research work in the field of interfacial fluid mechanics. .
Engineering. --- Fluid mechanics -- Mathematical models. --- Hydraulic engineering. --- Surfaces (Physics). --- Viscous flow --- Fluid mechanics --- Microfluidics --- Engineering & Applied Sciences --- Civil & Environmental Engineering --- Civil Engineering --- Applied Mathematics --- Mathematical models --- Fluid mechanics. --- Mathematical models. --- Models, Mathematical --- Hydromechanics --- Thermodynamics. --- Heat engineering. --- Heat transfer. --- Mass transfer. --- Materials --- Thin films. --- Engineering Fluid Dynamics. --- Surfaces and Interfaces, Thin Films. --- Engineering Thermodynamics, Heat and Mass Transfer. --- Surfaces. --- Continuum mechanics --- Simulation methods --- Physics --- Surface chemistry --- Surfaces (Technology) --- Engineering, Hydraulic --- Engineering --- Hydraulics --- Shore protection --- Construction --- Industrial arts --- Technology --- Materials—Surfaces. --- Mass transport (Physics) --- Thermodynamics --- Transport theory --- Heat transfer --- Thermal transfer --- Transmission of heat --- Energy transfer --- Heat --- Mechanical engineering --- Chemistry, Physical and theoretical --- Dynamics --- Mechanics --- Heat-engines --- Quantum theory --- Films, Thin --- Solid film --- Solid state electronics --- Solids --- Coatings --- Thick films
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The ultrasonic velocity profile (UVP) method, first developed in medical engineering, is now widely used in clinical settings. The fluid mechanical basis of UVP was established in investigations by the author and his colleagues with work demonstrating that UVP is a powerful new tool in experimental fluid mechanics. There are diverse examples, ranging from problems in fundamental fluid dynamics to applied problems in mechanical, chemical, nuclear, and environmental engineering. In all these problems, the methodological principle in fluid mechanics was converted from point measurements to spatio-temporal measurements along a line. This book is the first monograph on UVP that offers comprehensive information about the method, its principles, its practice, and applied examples, and which serves both current and new users. Current users can confirm that their application configurations are correct, which will help them to improve the configurations so as to make them more efficient and effective. New users will become familiar with the method, to design applications on a physically correct basis for performing measurements accurately. Additionally, the appendix provides necessary practical information, such as acoustic properties.
Engineering. --- Fluid dynamic measurements. --- Fluid mechanics -- Mathematical models. --- Ultrasonic waves -- Measurement. --- Fluid dynamic measurements --- Fluid dynamics --- Ultrasonic waves --- Civil & Environmental Engineering --- Engineering & Applied Sciences --- Civil Engineering --- Applied Mathematics --- Mathematical models --- Measurement --- Fluid mechanics. --- Fluid dynamics. --- Hydromechanics --- Chemical engineering. --- Mechanical engineering. --- Engineering Fluid Dynamics. --- Mechanical Engineering. --- Industrial Chemistry/Chemical Engineering. --- Signal, Image and Speech Processing. --- Continuum mechanics --- Dynamics --- Fluid mechanics --- Hydraulic engineering. --- Chemistry, Industrial --- Engineering, Chemical --- Industrial chemistry --- Engineering --- Chemistry, Technical --- Metallurgy --- Engineering, Mechanical --- Machinery --- Steam engineering --- Engineering, Hydraulic --- Hydraulics --- Shore protection --- Signal processing. --- Image processing. --- Speech processing systems. --- Computational linguistics --- Electronic systems --- Information theory --- Modulation theory --- Oral communication --- Speech --- Telecommunication --- Singing voice synthesizers --- Pictorial data processing --- Picture processing --- Processing, Image --- Imaging systems --- Optical data processing --- Processing, Signal --- Information measurement --- Signal theory (Telecommunication)
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This volume contains 37 invited contributions, collected to celebrate one hundred volumes of the NNFM Series. After a general introduction overviews are given in five parts of the developments in numerical fluid mechanics and related fields. In the first part information about the series is given, its origins are discussed, as well as its environment and the German and European high-performance computer scene. In Part II the co-editors of the series give short surveys over developments in their countries. Current applications, mainly in the aerospace sector, but also in the automotive sector, are discussed in Part III. Applications to flow problems in engineering and physics, ranging from hydraulic machinery to astrophysics, are the topics of Part IV. Algorithms, computer science, commercial CFD, public partnerships in high-performance computing, and hardware development up to petaflops computers are treated in Part V. All volumes, which were published in the series finally are listed in Part VI.
Aerodynamics --Mathematical models. --- Fluid mechanics --Mathematical models. --- Fluid mechanics --- Aerodynamics --- Civil & Environmental Engineering --- Engineering & Applied Sciences --- Civil Engineering --- Applied Mathematics --- Mathematical models --- Mathematical models. --- Hydromechanics --- Engineering. --- Computer simulation. --- Computer mathematics. --- Physics. --- Fluids. --- Computational intelligence. --- Fluid mechanics. --- Engineering Fluid Dynamics. --- Fluid- and Aerodynamics. --- Simulation and Modeling. --- Computational Mathematics and Numerical Analysis. --- Computational Intelligence. --- Numerical and Computational Physics. --- Continuum mechanics --- Intelligence, Computational --- Artificial intelligence --- Soft computing --- Hydraulics --- Mechanics --- Physics --- Hydrostatics --- Permeability --- Natural philosophy --- Philosophy, Natural --- Physical sciences --- Dynamics --- Computer mathematics --- Discrete mathematics --- Electronic data processing --- Computer modeling --- Computer models --- Modeling, Computer --- Models, Computer --- Simulation, Computer --- Electromechanical analogies --- Simulation methods --- Model-integrated computing --- Construction --- Industrial arts --- Technology --- Mathematics --- Hydraulic engineering. --- Computer science --- Numerical and Computational Physics, Simulation. --- Mathematics. --- Engineering, Hydraulic --- Engineering --- Shore protection --- Continuum mechanics. --- Mathematical physics. --- Continuum Mechanics. --- Computer Modelling. --- Theoretical, Mathematical and Computational Physics. --- Data processing. --- Physical mathematics --- Mechanics of continua --- Elasticity --- Mechanics, Analytic --- Field theory (Physics)
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This short book deals with the mathematical modeling of jets impinging porous media. It starts with a short introduction to models describing turbulences in porous media as well as turbulent heat transfer. In its main part, the book presents the heat transfer of impinging jets using a local and a non-local thermal equilibrium approach.
Hydraulic engineering. --- Jets -- Fluid mechanics -- Mathematical models. --- Porous materials -- Mathematical models. --- Porous materials -- Thermal properties -- Mathematical models. --- Surfaces (Physics). --- Civil & Environmental Engineering --- Engineering & Applied Sciences --- Civil Engineering --- Applied Physics --- Fluid dynamics. --- Hydrodynamics. --- Engineering. --- Thermodynamics. --- Heat engineering. --- Heat transfer. --- Mass transfer. --- Fluid mechanics. --- Materials science. --- Materials --- Thin films. --- Engineering Fluid Dynamics. --- Engineering Thermodynamics, Heat and Mass Transfer. --- Characterization and Evaluation of Materials. --- Surfaces and Interfaces, Thin Films. --- Surfaces. --- Fluid dynamics --- Dynamics --- Fluid mechanics --- Physics --- Surface chemistry --- Surfaces (Technology) --- Construction --- Industrial arts --- Technology --- Engineering, Hydraulic --- Engineering --- Hydraulics --- Shore protection --- Materials—Surfaces. --- Films, Thin --- Solid film --- Solid state electronics --- Solids --- Coatings --- Thick films --- Material science --- Physical sciences --- Mass transport (Physics) --- Thermodynamics --- Transport theory --- Heat transfer --- Thermal transfer --- Transmission of heat --- Energy transfer --- Heat --- Mechanical engineering --- Chemistry, Physical and theoretical --- Mechanics --- Heat-engines --- Quantum theory --- Hydromechanics --- Continuum mechanics --- Surface phenomena --- Friction --- Surfaces (Physics) --- Tribology --- Surfaces
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