Engineering Fluid Dynamics
by Bjorn H. Hjertager (Ed.)
Publisher: MDPI AG 2018
Number of pages: 212
The topic of engineering fluid dynamics includes both experimental as well as computational studies. Of special interest were submissions from the fields of mechanical, chemical, marine, safety, and energy engineering. We welcomed both original research articles as well as review articles.
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by Bob R. Hunter, Henry Allen - Delmar Publishers
An introductory treatment of basic fluid principles as well as others elected topics. The materials cover these concepts: differential forces, flow rates, opposition to flow, energy storage, time constants, impedance matching and resonance.
by Philip Magnus - Longmans
This Class-Book is intended for those who have already acquired some elementary knowledge of Mechanics, and are about to commence the study of Hydrostatics and Pneumatics. The author combines the Experimental with the Deductive method.
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 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.