Stability of acoustic wave in two-phase dilute flow with mass transfer

The behavior of an acoustic wave propagating in a two-phase dilute flow is analytically and numerically investigated. The focus is on the effects of a mass transfer modeled by the so-called rapid-mixing model. An analytical s olution is carried out that shows a possible unstable flow regime, which me ans that the magnitude of a pressure wave may be amplified under particular conditions. The neutral stability condition is mainly driven by-a mass tra nsfer number, which links the heat of phase change and the equilibrium temp erature. Even the mass transfer is a simplified one and far from the actual combustion of metal particles, when the analysis is applied to aluminum pa rticles in solid rocket motor environment, unstable How behavior is seen at low frequencies. One-dimensional simulations of the propagation of an acou stic wave are performed, and the results recovered the theoretical ones. A simulation in a two-dimensional motor leads to an oscillatory flow, which i s sustained, and the amplitude of the pressure oscillation reaches an asymp totic value. This result, obtained by solving the nonlinear coupled two-pha se flow equations shows that the mass transfer might be a driven mechanism for instabilities in solid rocket motor two-phase flows.