关键词: 固体火箭发动机；气粒两相流；SPH；FVM；耦合方法

Abstract: To deal with the problems encountered in solving the particle combustion and flow with the existing models in Solid Rocket Motor(SRM)，smoothed particle hydrodynamics was used to solve the discrete particle phase and to trace each particle based on pseudo fluid model. The continuum gas phase was described by the finite volume method and the flow field characteristics were captured with this method. The two methods were coupled by drag force，pressure gradient value，heat transfer and the volume fraction. The coupling framework under two different coordinate systems was established. The gas-particle two-phase flow in Jet Propulsion Laboratory nozzle was solved by the new method. The parameters distribution of both gas and particle phases was obtained. The results were consistent with related experimental results and discrete particle model simulation results. Aiming at working conditions and configuration characteristics of[?315mm]motor，gas-particle two-phase flow in the chamber of motor under high acceleration was simulated. The effects of horizontal and vertical accelerations on particle field and accumulation zone were analyzed. The results agreed well with other simulation results. It shows that the method is accurate and reliable in solving the gas-particle two-phase flow in SRM and it may be applied in more complicated two-phase flow problems in SRM.

Key words: Solid rocket motor；Gas-particle two-phase flow；Smoothed particle hydrodynamics；Finite volume fraction; Coupled method