不同基准钟对BDS实时钟差估计的影响分析CSCD

BDS原始观测量是站星之间的相对时间延迟,在实时卫星钟差估计过程中需要引入一个基准钟,求解该基准约束下的钟差产品。基于两种不同的基准约束条件实时估计BDS卫星钟差,并从实时钟差的估计精度、钟差频率特性(频率漂移率、频率准确度、频率稳定度)及钟差预报精度等方面分析其对BDS实时钟差估计的影响。算例结果表明,在两种不同的基准模式下,估计得到的BDS实时卫星钟差性能基本一致,在实际使用中可根据情况采用不同的基准钟进行钟差估计,为BDS实时卫星钟差估计时基准钟的选择提供了参考。     

Optimization for aerodynamic performance of double serpentine nozzles with spanwise offsets using Taguchi-based CFD analysis

Serpentine nozzles are widely used in combat aircraft to realize strong stealth characteristics. Based on the layout characteristics within a confined space, a series of double serpentine nozzles with spanwise offsets are established. Using computational fluid dynamics and Taguchi method, the influence mechanisms of the Distribution of Area (DA), Distributions of Centerline for the first and second ‘S’ sections in the Vertical direction (DCV1 and DCV2), and Distribution of Centerline in the Spanwise direction (DCS) are analyzed. The impact of these factors on the total pressure recovery coefficient can be ranked as DA > DCV2 > DCS > DCV1, whereas their impacts on the discharge coefficient and axial thrust coefficient can be ranked as DCV2 > DCS > DA > DCV1. Considering the statistical significance of these factors, a nozzle in which DA changes rapidly at the exit and DCV1, DCV2, and DCS change rapidly at the entrance gives the best aerodynamic performance. Compared to the worst configuration, the total pressure recovery coefficient, discharge coefficient, and axial thrust coefficient are improved by 1.6%,3.5% and 3.6%, respectively. DA influences the gas flow acceleration in the entire serpentine channel, resulting in different wall shear stress and friction losses. The various centerline distributions influence the gas flow acceleration effects and form complex wave structures in the constant-area extension section, resulting in different local and friction losses.