关键词: 超声速风洞;水蒸汽+;引射;凝结

Abstract: Hot steam ejector is a candidate for combustion-heated supersonic wind tunnel.The purpose aim of this study is to predict the vapour condensation and its effect on ejector performance.The Hill model of moment,which is used to describe natural condensation of steam in high-speed flow,was incorporated into commercial software Fluent by UDF.The method was validated by a question of a nozzle steam flow.Then,the subscale hot steam ejecting system was preliminarily designed and predicted numerically.The results show that(1) Vapour condensation occurs in ejector nozzles as well as at the regions just downstream the nozzle exit.The condensed nuclei grow up continuously in these regions.(2) If the condensing nucleation starts in the supersonic flow,this leads to the generation of the condensation shock.But this phenomenon can be avoided by using saturated vapour.(3) Although the flow fields are a little different from the conditions whether the condensation is considered in the model,they are generally similar except the distribution of Mach number and temperature.(4) Steam condensation results in a large performance loss of the hot steam ejector,but it can be reduced by the optimization of nozzle contours.

Key words: Supersonic wind tunnel;Steam~+;Ejection;Freeze