Cavitation and Bubble DynamicsOxford University Press, 1995 - 282 Seiten This book provides a coherent and unified treatment of the fundamental physical processes involved in bubble dynamics and the phenomenon of cavitation. Of interest to a wide range of mechanical engineers, the study of cavitation and bubbly flows is applicable to topics ranging from valve damage in hydroelectric equipment, ship propellers, and internal combustion engines to the performance of turbines and pumps of all sizes. Well-written and up-to-date, the book will prove indispensable to engineers and students needing a reference detailing the problems of cavitation and bubbly flow. |
Inhalt
Abschnitt 1 | 61 |
Abschnitt 2 | 73 |
Abschnitt 3 | 77 |
Abschnitt 4 | 126 |
Abschnitt 5 | 155 |
Abschnitt 6 | 157 |
Abschnitt 7 | 178 |
Abschnitt 8 | 213 |
Abschnitt 9 | 215 |
Abschnitt 10 | 216 |
Abschnitt 11 | 217 |
Abschnitt 12 | 219 |
Abschnitt 13 | 222 |
Abschnitt 14 | 223 |
Abschnitt 15 | 224 |
Abschnitt 16 | 262 |
Andere Ausgaben - Alle anzeigen
Häufige Begriffe und Wortgruppen
Acosta acoustic acoustic cavitation amplitude analysis angle of attack Arakeri ASME assumed axisymmetric barotropic behavior body boundary condition boundary layer Brennen bubble collapse bubble dynamics bubble growth bubble radius cascade cavitation bubbles cavitation inception cavitation number cavity flows choked flow closure cloud constant Cpmin critical detachment point diffusion downstream drag coefficient equilibrium example finite flat plate Fluid Mech free streamline free surface function headform heat transfer hydrofoil lift coefficient linear liquid mass microjet multiphase flows natural frequency nonlinear nucleation nuclei observed occur oscillations partial cavitation particle phase photographs Plesset potential flow pressure Proc Prosperetti ratio Rayleigh-Plesset equation reentrant jet Reynolds number Section shown in Figure solid surface solution sonoluminescence spherical bubble stagnation point supercavitating superheat surface tension temperature tensile strength term theory thermal effects tion typical unsteady vapor velocity viscous vortex vortices wake water tunnel zero
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The Dawn of Fluid Dynamics: A Discipline Between Science and Technology Michael Eckert Eingeschränkte Leseprobe - 2006 |