关键词: 航空、航天推进系统;环形燃烧室;双级轴向旋流器;液雾燃烧流场

Abstract: To investigate the effects of the different primary holes parameters on flow structure and aerodynamic characteristics in the model annular combustor with the double axial swirler,the isothermal and spray combusting flow fields within the model annular combustor with the double axial swirler are measured by a Particle Image Velocimetry (PIV) system.Effects of the different primary dilution hole parameters on the formation of recirculation zone,profiles of axial velocity u,axial fluctuating velocity Urms and Reynolds shear stress u’v’-in the combustors are investigated experimentally.Results of the PIV show that effects of different primary dilution holes parameters on isothermal and reacting flow fields are considerable.The lengths of central recirculation zone of the combusting cases are shorter than that of the non-reacting cases.However,recirculation velocity,Urms and the Reynolds shear stress of reacting flows are higher than that of non-reacting flows.Investigations may provide useful information for the optimum design of the gas turbine combustor.

Key words: Aerospace propulsion system;Annular combustor;Double axial swirler;Spray combusting flow field