Applied Shape Optimization for Fluids (Numerical Mathematics and Scientific Computation)

applied shape optimization for fluids (numerical mathematics and scientific computation)

more information about Applied Shape Optimization for Fluids (Numerical Mathematics and Scientific Computation)

Applied Shape Optimization for Fluids (Numerical Mathematics and Scientific Computation)

Editorial Reviews
Book Description
The fields of computational fluid dynamics (CFD) and optimal shape design (OSD) have received considerable attention in the recent past, and are of practical importance for many engineering applications. The present book deals with shape optimization problems for fluids, with the equations
needed for their understanding (Euler and Navier Stokes), and with the numerical simulation of these problems. Automatic differentiation, approximate gradients, and automatic mesh refinement as the new tools of optimal shape design are introduced, and their implementation into the industrial
environments of aerospace and automobile equipment industry explained and illustrated.

Book Info
Deals with shape optimization for fluids, with the equations needed for understanding them, and numerical simulations. Introduces tools of optimal shape design, such as automatic differentiation, approximate gradients, and automatic mesh refinement.

Applied Shape Optimization for Fluids (Numerical Mathematics and Scientific Computation),B. Mohammadi,O. Pironneau,Oxford University Press, USA,0198507437,Aeronautics & Astronautics,Applied,Engineering - Mechanical,Engineering Fluid Mechanics,Fluid dynamics,Linear Programming,Mathematical optimization,Mathematics,Mechanics - General,Optimization (Mathematical Theory),Science,Science/Mathematics,Shape theory (Topology),Applied mathematics,Mathematics / Applied,Mathematics | Applied Mathematics,Mechanical engineering,Mechanics of fluids,Optimization

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Books Info

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