Entropy generation minimization for heat and mass transfer process in a solid-gas reactor is carried out based on constructal theory by using triangular elemental area. The aspect ratio of the triangular elemental are...Entropy generation minimization for heat and mass transfer process in a solid-gas reactor is carried out based on constructal theory by using triangular elemental area. The aspect ratio of the triangular elemental area is optimized under constraint conditions. A number of optimal triangular elements are assembled to a new large rectangular area, which is optimised again. The procedure is repeated until the control-volume is covered, and the complete analytical results are obtained. The effects of some parameters on minimum entropy generation are analysed by nu-merical examples. The results show that smaller entropy generation can be ob-tained when the optimization for a given volume is carried out on the basis of tri-angular elements than those obtained on the basis of rectangular elements.展开更多
文摘为研究圆盘结构下旋转爆震波的传播特性,通过改变反应物的质量流率及当量比,在非预混圆盘形旋转爆震模型发动机(rotating denonation engine,RDE)上进行实验研究。结果表明,爆震波在圆盘形RDE上成功起始并能够连续传播,得到了两种传播模态:单波模态和双波模态,在发动机工作过程中发现,集气腔与燃烧室存在相互作用。当反应物质量流率小于159.20 g/s时,旋转爆震波以单波模态稳定传播,爆震波传播频率为4.56~4.62 k Hz,越靠近燃烧室外圆,爆震波的压力峰值及传播速度越大;当质量流率大于186.89 m/s时,旋转爆震波以双波模态传播,传播频率为8.59~8.64 k Hz。双波传播模态经历四个阶段:起爆阶段的单波段、稳定双波段、不稳定双波段、排气阶段转单波段。当质量流率介于159.20~186.89 g/s之间时,旋转爆震波以单/双波混合模态传播。反应物当量比在1附近时,爆震波的传播过程较稳定,偏离1,爆震波传播不稳定,初始阶段起爆失败或传播过程中存在间断。
基金the Program for New Century Excellent Talents in Universities of China (Grant No. NCET-04-1006)Foundation for the Author of National Excellent Doctoral Dissertation of China (Grant No. 200136)
文摘Entropy generation minimization for heat and mass transfer process in a solid-gas reactor is carried out based on constructal theory by using triangular elemental area. The aspect ratio of the triangular elemental area is optimized under constraint conditions. A number of optimal triangular elements are assembled to a new large rectangular area, which is optimised again. The procedure is repeated until the control-volume is covered, and the complete analytical results are obtained. The effects of some parameters on minimum entropy generation are analysed by nu-merical examples. The results show that smaller entropy generation can be ob-tained when the optimization for a given volume is carried out on the basis of tri-angular elements than those obtained on the basis of rectangular elements.