Finite Rate Calculations of Magnesium Combustion in Steam Atmospheres
Towards new-concept magnesium-based hydroreactive metal fuel propulsion,finite rate calculations of magnesium combustion in steam atmospheres based on chemical reaction dynamics is to be investigated,and its underlying thermoacoustic oscillations is to be demonstrated.Especially in this study,considering the influence of water dissociation under high temperature,a one-dimensional numerical simulation of Mg/H2O premixed gas was conducted using the SPIN application of the commercial Chemkin package as an equation solver.The results show that a higher initial temperature of Mg/H2O mixture will lead to a higher equilibrium temperature,and water dissociation will cause temperature decrease after equilibrium point.While the effect of water dissociation on temperature profiles was weakened under high pressure,on the contrary,under a relative low pressure,the effect of water dissociation on the reaction process was found to be significant,even under a lower initial temperature.Considering the unsteady heat release fluctuation due to water dissociation coupled with the sound fluctuations,predictions are also obtained to explain the possibility of thermoacoustic oscillations.
Chemical reaction dynamics Mg/H2O reaction Finite rate Heat release rate
Yajing. Yang Qu. Zhi
State Key Laboratory for Strength and Vibration of Mechanical Structures,School of Aerospace,Xian Jiaotong University,Xian,710049,China
国际会议
The 5th International Symposium on Jet Propulsion and Power Engineering(第五届喷气推进与动力工程国际会议)
北京
英文
1-6
2014-09-15(万方平台首次上网日期,不代表论文的发表时间)