by Jorge Colman Lerner, Ulfilas Boldes
Publisher: InTech 2012
Number of pages: 192
This Book covers a small part of the numerous cases of stationary and non stationary aerodynamics; wave generation and propagation; wind energy; flow control techniques and, also, sports aerodynamics. Useful for researchers in the several branches of applied aerodynamics.
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by F. C. Lea - E. Arnold
Contents: fluids at rest; floating bodies; fluids in motion; flow of water through orifices and over weirs; flow through pipes; flow in open channels; gauging the flow of water; impact of water on vanes; water wheels and turbines; pumps; etc.
by Matthew Marko - viXra
The author demonstrates a stable Lagrangian solid modeling method, tracking the interactions of solid mass particles, rather than using a meshed grid. This method avoids the problem of tensile instability seen with Smooth Particle Applied Mechanics.
by Joseph M. Powers - University of Notre Dame
Lecture notes on intermediate fluid mechanics: Derivation of governing equations of mass, momentum, and energy for a viscous, compressible fluid; general survey of vortex dynamics, potential flow, viscous flow, and compressible flow.
by Christopher E. Brennen - Oxford University Press
A treatment of the fundamental physical processes involved in bubble dynamics and cavitation. It is applicable to topics ranging from valve damage in hydroelectric equipment, ship propellers, and internal combustion engines to the turbines and pumps.