Mach Wave and Acoustical Wave Structure in Nonequilibrium Gas-Particle Flows

Download or read book Mach Wave and Acoustical Wave Structure in Nonequilibrium Gas-Particle Flows written by Joseph T. C. Liu and published by Cambridge University Press. This book was released on 2021-10-07 with total page 78 pages. Available in PDF, EPUB and Kindle. Book excerpt: In this Element, the gas-particle flow problem is formulated with momentum and thermal slip that introduces two relaxation times. Starting from acoustical propagation in a medium in equilibrium, the relaxation-wave equation in airfoil coordinates is derived though a Galilean transformation for uniform flow. Steady planar small perturbation supersonic flow is studied in detail according to Whitham's higher-order waves. The signals owing to wall boundary conditions are damped along the frozen-Mach wave, and are both damped and diffusive along an effective-intermediate Mach wave and diffusive along the equilibrium Mach wave where the bulk of the disturbance propagates. The surface pressure coefficient is obtained exactly for small-disturbance theory, but it is considerably simplified for the small particle-to-gas mass loading approximation, equivalent to a simple-wave approximation. Other relaxation-wave problems are discussed. Martian dust-storm properties in terms of gas-particle flow parameters are estimated.