Mécanique des Fluides Incompressibles
Abstract
A textbook on the theory, numerical models, and experimental techniques for the examination of incompressible flows is presented. Fundamental equations for the kinematics and dynamics of flows are reviewed, as are the equations of motion for a Newtonian fluid, taking into consideration the initial and boundary conditions and the situation at the contact surface between two viscous fluids. Similarity and dimensional analyses for solving the equations for the mechanics of fluids are explored, including numerical simulation and perturbation methods. Attention is given to the Euler, Bernoulli, Kelvin, Helmholtz, and Lagrange theorems, as well as to techniques for solving the Laplace equation for a perfect fluid. A variable, complex method is introduced for planar, irrotational flows, and a theory of two and threedimensional thin profiles is defined. Dynamic and thermal effects in laminar flows are investigated, and stability, transition, turbulence and flow separation are discussed.
 Publication:

Mécanique des Fluides Incompressibles
 Pub Date:
 1982
 DOI:
 10.1007/3540115781
 Bibcode:
 1982LNP...163.....D
 Keywords:

 Flow Theory;
 Fluid Mechanics;
 Ideal Fluids;
 Incompressible Flow;
 Viscous Flow;
 Complex Variables;
 Flow Equations;
 Laminar Boundary Layer;
 Newtonian Fluids;
 Temperature Effects;
 Three Dimensional Flow;
 Turbulent Flow;
 Two Dimensional Flow;
 Fluid Mechanics and Heat Transfer