转子叶片加工误差对1.5级跨声速压气机气动性能的影响

压气机叶片加工误差不可避免,将在一定程度上影响压气机的气动性能.为研究叶片加工误差对跨声速压气机气动性能的影响,以燃气轮机进口1.5级跨声速压气机为对象,通过三坐标测量跨声速转子叶片叶型数据,获得了加工误差分布特征;针对实测转子叶片,采用三维CFD数值模拟方法,研究了轮廓度、位置度和扭转角综合误差对压气机转子和级特性线...     

The role of AVDR in linear cascade testing

Linear cascade testing plays an important role in the research and development of turbomachinery and is widely used over the world.The ideal cascade model of a turbomachinery blade row is two-dimensional.In actual linear cascade testing, the flow through the test section converges due to the development of the boundary layer and secondary flow along the sidewall surfaces of the test section.Axial velocity density ratio(AVDR) is adopted to account for the deviation of the tested cascade flow from the ideal 2D model.Among numerous published cascade works, the influence of AVDR on cascade performance is seen to be complicated with many affecting factors, such as those related to cascade/blade geometry and flow conditions.Also, controlling AVDR is limited by the facility capability.Furthermore, real blade-to-blade flow in turbomachines is usually associated with AVDR greater than unity due to limited span of blades between the hub and shroud such that cascade testing without reducing AVDR could be favored sometimes.All these facets add complexity and diversification to the matter.The current paper reviews previous studies and results on AVDR.Consolidated understanding on the role of AVDR and recommendations on how to deal with it in linear cascade testing are provided.      

某类跨大气层飞行器全航程红外辐射特性分析

针对某类跨大气层飞行器飞行过程中需要进出大气层,且飞行速度跨度大等特点,建立了不同空域、不同飞行速度下的机体头部受热模型。当在大气层内飞行时分别使用经验公式和Lees公式计算马赫数小于5和大于5时头部受热情况,当在大气层外飞行时建立了考虑太阳直射、地球反照和地球红外加热情况下的受热模型。利用普朗克定律得到了相同温度下不同波段的红外辐射能量占比情况。最后利用本方法对某类跨大气层飞行器进行了温度和红外辐射计算,得到的计算结果能够大致反映全航程头部温度和红外辐射变化情况。     

模型烧蚀对尾迹电子特性影响的计算和实验研究

 基于气动物理研究的需要,针对高焓风洞的来流特点,采用计算和实验相结合的方法研究聚丙烯烧蚀对尾迹电子密度的影响。结果表明：计算结果可以有效模拟实验状态,电子密度的模拟精度有很大提高,误差在一个量级内;聚丙烯烧蚀可以降低尾迹的电子密度,但幅度不大,在2倍左右,其与选择模型材料的催化特性降低幅度相当;对电弧风洞的成功改进和非稀薄流静电探针诊断技术的应用,是尾迹电子密度测试的前提保障。     

基于距离像特征的复合速度估计算法研究

首先分析了步进频率宽带信号混频处理原理和目标速度对距离像的影响。在此基础上,提出了基于距离像熵和距离像对比度的速度估计算法,详细分析了这两种算法的数学原理、步骤、效果、适用条件等。最后,基于这两种算法又提出了复合速度估计算法,大大提高了速度估计精度。     

Study of maximum electron density NmF2 at Karachi and Islamabad during solar minimum (1996) and solar maximum (2000) and its comparison with IRI

The monthly hourly medians of maximum electron density, N_mF₂, at two Pakistani ionospheric stations, Karachi and Islamabad, have been determined for solar minimum (1996) and solar maximum (2000) and compared with IRI predictions using the URSI coefficients. At night and pre-noon period the N_mF₂ values at both stations are almost equal during the 2 years. However, at post-noon the values at Karachi are considerably larger than those at Islamabad due to the equatorial or geomagnetic anomaly. Karachi (geomag. coord. 16.44°N, 139.08°E) lies near the region of the equatorial anomaly (+20 and −20 geomagnetic latitude), so most of the N_mF₂ values at Karachi are larger than those at Islamabad (geomag. coord. 24.46°N, 145.67°E). The maximum monthly values of N_mF₂ show a semi-annual variation at Karachi and Islamabad both during 1996 and 2000 as predicted by IRI.     

Latitudinal variation of the topside electron temperature at different levels of solar activity

A database of electron temperature (T_e) measurements comprising of most of the available satellite measurements in the topside ionosphere is used for studying the solar activity variations of the electron temperature T_e at different latitudes, altitudes, local times and seasons. The T_e data are grouped into three levels of solar activity (low, medium, high) at four altitude ranges, for day and night, and for equinox and solstices. We find that in general T_e changes with solar activity are small and comparable in magnitude with seasonal changes but much smaller than the changes with altitude, latitude, and from day to night. In all cases, except at low altitude during daytime, T_e increases with increasing solar activity. But this increase is not linear as assumed in most empirical T_e models but requires at least a parabolic approximation. At 550 km during daytime negative as well as positive correlation is found with solar activity. Our global data base allows to quantify the latitude range and seasonal conditions for which these correlations occur. A negative correlation with solar activity is found in the invdip latitude range from 20 to 55 degrees during equinox and from 20 degrees onward during winter. In the low latitude (20 to −20 degrees invdip) F-region there is almost no change with solar activity during solstice and a positive correlation during equinox. A positive correlation is also observed during summer from 30 degrees onward.     

微纳InSAR卫星总体技术研究

微纳合成孔径雷达干涉(Synthetic Aperture Radar Interferometry, InSAR)卫星是对地定量化遥感的重要手段。开展了微纳InSAR卫星系统总体技术研究,给出了使得干涉测量覆盖范围最大的双星编队构型设计方法,建立了低燃料消耗双星轨道参数设计准则,提出高功能密度比InSAR卫星系统的设计方法,包括载荷平台一体化、卫星高集成模块化等总体设计方法,并给出了相应的设计实例。     

A global survey of COSMIC ionospheric peak electron density and its height: A comparison with ground-based ionosonde measurements

With a network of ground-based ionosondes distributed around the world, the ionospheric peak electron density and its height measured by FORMOSAT-3/COSMIC satellites in terms of GPS radio occultation technique are extensively examined in this article. It is found that, in spite of the latitude, the mean values of the peak electron density measured by COSMIC satellites are systematically smaller than those observed by ground-based ionosondes. The discrepancy between them is dependent on the latitude, namely, it is small in low and mid-latitudes and large in high-latitude region. Moreover, statistical analysis shows that the slopes of the regression line that is best fitted to the scatter diagram of occultation-retrieved peak electron density (ordinate axis) versus ionosonde-observed peak density (abscissa axis) are universally less than one. This feature is believed to be the result of path average effect of non-uniform distribution of the electron density along the GSP ray during the occultation. A comparison between COSMIC-measured peak height and ionosonde-derived peak height hmF2 indicates that the former is systematically higher than the latter. The difference in the two can be as large as 20% or more in equatorial and low-latitude regions. This result implies that the peak height hmF2 derived from the virtual height through true height analysis based on Titheridge method seems to underestimate the true peak height. The correlation between COSMIC and ionosonde peak electron densities is analyzed and the result reveals that correlation coefficient seems to be dependent on the fluctuation of the occultation-retrieved electron density profile. The correlation will be higher (lower) for the electron density profiles with smaller (larger) fluctuations. This feature suggests that the inhomogeneous distribution of the electron density along the GPS ray path during the occultation plays an important role affecting the correlation between COSMIC and ionosonde measurements.     

中、高密度Nomex蜂窝力学性能研究

研究了航空用三种中、高密度Nomex蜂窝的力学性能 ,并讨论了纸的厚度、浸渍溶液浓度、环境湿度和渗透剂对Nomex蜂窝力学性能的影响。结果表明 ,选择厚度合适的Nomex纸 ,严格控制湿度 ,并在浓度为 35 %～5 0 %范围内浸渍胶液中加入适量的渗透剂可以制作出与国外同类产品性能相当的高性能中、高密度Nomex蜂窝