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Fluid dynamic measurements. --- Flow meters --- Calibration.
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Fluid dynamic measurements. --- Flow meters --- Calibration.
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This volume deals with the random perturbation of PDEs which lack well-posedness, mainly because of their non-uniqueness, in some cases because of blow-up. The aim is to show that noise may restore uniqueness or prevent blow-up. This is not a general or easy-to-apply rule, and the theory presented in the book is in fact a series of examples with a few unifying ideas. The role of additive and bilinear multiplicative noise is described and a variety of examples are included, from abstract parabolic evolution equations with non-Lipschitz nonlinearities to particular fluid dynamic models, like the dyadic model, linear transport equations and motion of point vortices.
Perturbation (Mathematics) --- Fluid dynamics --- Mathematics --- Engineering & Applied Sciences --- Physical Sciences & Mathematics --- Mathematical Statistics --- Applied Mathematics --- Mathematical models --- Fluid dynamic measurements. --- Differential equations, Partial. --- Partial differential equations --- Measurements, Fluid dynamic --- Perturbation equations --- Perturbation theory --- Measurement --- Mathematics. --- Probabilities. --- Probability Theory and Stochastic Processes. --- Probability --- Statistical inference --- Combinations --- Chance --- Least squares --- Mathematical statistics --- Risk --- Math --- Science --- Physical measurements --- Approximation theory --- Dynamics --- Functional analysis --- Mathematical physics --- Distribution (Probability theory. --- Distribution functions --- Frequency distribution --- Characteristic functions --- Probabilities
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The emphasis of this book is on engineering aspects of fluid turbulence. The book explains for example how to tackle turbulence in industrial applications. It is useful to several disciplines, such as, mechanical, civil, chemical, aerospace engineers and also to professors, researchers, beginners, under graduates and post graduates. The following issues are emphasized in the book: - Modeling and computations of engineering flows: The author discusses in detail the quantities of interest for engineering turbulent flows and how to select an appropriate turbulence model; Also, a treatment of the selection of appropriate boundary conditions for the CFD simulations is given. - Modeling of turbulent convective heat transfer: This is encountered in several practical situations. It basically needs discussion on issues of treatment of walls and turbulent heat fluxes. - Modeling of buoyancy driven flows, for example, smoke issuing from chimney, pollutant discharge into water bodies, etc.
Fluid dynamic measurements. --- Fluid dynamics. --- Turbulence -- Mathematical models. --- Turbulence --- Civil & Environmental Engineering --- Engineering & Applied Sciences --- Civil Engineering --- Thermodynamics. --- Chemical engineering. --- Chemistry, Industrial --- Engineering, Chemical --- Industrial chemistry --- Engineering. --- Fluids. --- Statistical physics. --- Dynamical systems. --- Heat engineering. --- Heat transfer. --- Mass transfer. --- Fluid mechanics. --- Engineering Fluid Dynamics. --- Fluid- and Aerodynamics. --- Engineering Thermodynamics, Heat and Mass Transfer. --- Statistical Physics, Dynamical Systems and Complexity. --- Chemistry, Physical and theoretical --- Dynamics --- Mechanics --- Physics --- Heat --- Heat-engines --- Quantum theory --- Engineering --- Chemistry, Technical --- Metallurgy --- Fluid mechanics
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