Wave Propagation in Gas-Liquid Media
CRC Press, Jun 28, 1993 - Technology & Engineering - 240 pages
Wave Propagation in Gas-Liquid Media (translated from the Russian 2nd Edition, published in 1990) presents the fundamentals of wave dynamics of two-phase gas-liquid systems. The study of multiphase systems is of growing importance in mechanics and thermophysics, particularly for applications in industrial, energy, power, chemical, and aerospace engineering. This book presents investigations of non-linear wave dynamics, as well as practical applications of wave motion. A system of non-stationary gas-dynamics to replace studies of conventional gas-dynamics is constructed by the book's contributors. Topics discussed include acoustics and shock waves in homogenous gas- and vapor-liquid mixtures, dynamics of gas and vapor bubbles, wave processes in gas-liquid systems, wave propagation in a liquid with vapor bubbles, wave processes on the interface of two media, wave flow of liquid films, and basic calculation formulas for wave dynamics of gas- and vapor-liquid media. The book will be a useful reference for thermophysicists, mechanical engineers, and aerospace engineers.
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Dynamics of Gas and Vapor Bubbles
Wave Processes in GasLiquid Systems
Wave Propagation in a Liquid with Vapor Bubbles
Wave Processes on the Interface of Two Media
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acoustic adiabatic amplitude approximation assumes the form boundary conditions Boussinesq equation bubble growth bubble radius calculations by equation capillary waves characteristic coefficient compressibility corresponds ctg 9 defined density dependence dimensionless dispersive curve dispersive relation dissipation domain Duhamel integral evolution film thickness flow frequency gas bubbles gravitational waves heat flux hydrodynamic inertia initial disturbance integral interface kinematic wave layer Let us consider Let us write liquid film maximum growth mixture mixture density Moscow Nakoryakov V. E. Non-Linear Wave Novosibirsk obtained oscillations parameter phase transition phase velocity Pokusaev B. G. pressure profiles problem Rayleigh equation shock wave Shreiber I. R. solitary wave soliton solution to equation system of equations t,ms Figure temperature term thermal transform tube Two-Phase Media vapor bubbles vapor-liquid medium velocity of sound velocity profile viscosity wave formation wave number wave packet Wave Processes wave propagation