Combustion process inside kerosene-GOx rocket combustor with kerosene Alm cooling is studied,and a modeling approach is proposed.The paper suggests to use the Lagrangian particle tracking technique to model fuel film ...Combustion process inside kerosene-GOx rocket combustor with kerosene Alm cooling is studied,and a modeling approach is proposed.The paper suggests to use the Lagrangian particle tracking technique to model fuel film behavior while the continuous fluid is simulated via the Navier-Stokes system of Favre-averaged equations.The approach is validated over the 12 experimental regimes by the criterions of characteristic velocity and pressure,ence on the adiabatic wall temperatures and relatively low impact on the pressure.In general,phenomena,the calculation of operational processes becomes fast and robust yet precise en-the design process.展开更多
为了揭示敞口式离心喷嘴液膜填充及打开过程,采用两相界面追踪方法 VOF(volume of fluid)模拟了喷嘴内部及近喷口区域流动过程,计算得到的喷雾角和试验结果偏差不超过2%。计算结果表明:喷嘴内部填充过程中,自切向孔下游至喷嘴出口液膜...为了揭示敞口式离心喷嘴液膜填充及打开过程,采用两相界面追踪方法 VOF(volume of fluid)模拟了喷嘴内部及近喷口区域流动过程,计算得到的喷雾角和试验结果偏差不超过2%。计算结果表明:喷嘴内部填充过程中,自切向孔下游至喷嘴出口液膜厚度缓慢增加,在喷嘴出口处液膜厚度大幅度降低,呈非线性发展;相应地,切向孔截面空心涡经历了正方形-花瓣形-圆形的演化历程;喷口边缘处表面张力占主导,此时液膜较厚,因此液膜刚流出喷嘴时并没有立刻打开,而后变薄、失稳、脱落、破碎并部分聚合,随着时间推移,喷嘴出口液膜形态依次经历了铅笔形、洋葱形、郁金香形和完全发展形四种形态,与稳态下喷注压降改变时喷雾形态变化相一致。展开更多
基金Financial support was provided by the Russian Ministry of Education and Science(Project 13.7418.2017/8.9).
文摘Combustion process inside kerosene-GOx rocket combustor with kerosene Alm cooling is studied,and a modeling approach is proposed.The paper suggests to use the Lagrangian particle tracking technique to model fuel film behavior while the continuous fluid is simulated via the Navier-Stokes system of Favre-averaged equations.The approach is validated over the 12 experimental regimes by the criterions of characteristic velocity and pressure,ence on the adiabatic wall temperatures and relatively low impact on the pressure.In general,phenomena,the calculation of operational processes becomes fast and robust yet precise en-the design process.
文摘为了揭示敞口式离心喷嘴液膜填充及打开过程,采用两相界面追踪方法 VOF(volume of fluid)模拟了喷嘴内部及近喷口区域流动过程,计算得到的喷雾角和试验结果偏差不超过2%。计算结果表明:喷嘴内部填充过程中,自切向孔下游至喷嘴出口液膜厚度缓慢增加,在喷嘴出口处液膜厚度大幅度降低,呈非线性发展;相应地,切向孔截面空心涡经历了正方形-花瓣形-圆形的演化历程;喷口边缘处表面张力占主导,此时液膜较厚,因此液膜刚流出喷嘴时并没有立刻打开,而后变薄、失稳、脱落、破碎并部分聚合,随着时间推移,喷嘴出口液膜形态依次经历了铅笔形、洋葱形、郁金香形和完全发展形四种形态,与稳态下喷注压降改变时喷雾形态变化相一致。