反推装置对翼身融合分布式推进系统气动性能影响数值模拟

为了研究新型反推装置对翼身融合分布式推进系统气动性能的影响,将机身简化为二维模型,利用数值模拟的手段来研究攻角、反推开度,以及风扇打开或关闭对飞行参数的影响,为翼身融合分布式推进系统的反推装置设计提供初步的意见和建议。结果显示:反推闭合和风扇打开之后该机型的升力系数和俯仰力矩系数都会有较大增加;随着反推开度的增加,升力系数和俯仰力矩系数也随之增加;来流攻角对翼身融合分布式推进系统的气动性能也有较大影响。      

偏心撞击对撞击式喷嘴雾化特性的影响

为研究偏心撞击对撞击式喷嘴雾化特性的影响,建立了求解自燃推进剂冷态射流撞击雾化过程的数值模拟方案,计算了不同偏心度条件下的射流撞击雾化过程。采用树形自适应加密算法直接求解不可压Navier-Stokes方程组,由分段线性的流体体积(VOF)方法对流体界面进行捕捉。结果表明偏心撞击会导致雾场发生偏转,当无量纲偏心度E为1/8时,雾场偏转角度约为9.2°,应控制加工偏差小于该值。随着偏心度的增大,液膜的偏转角度增大,理论推导得到的液膜偏转角度要小于数值计算得到的液膜偏转角度。正心撞击时燃料与氧化剂流强峰值接近,雾场的流强分布呈单峰分布。当发生偏心撞击时,由于燃料与氧化剂部分射流未参与撞击导致流强峰值出现交错,雾场的流强分布呈双峰分布,混合比的空间分布发生较大改变。正心撞击时撞击点下游液滴的速度分布近似呈轴对称分布,而偏心撞击之后的速度分布则呈中心对称分布。偏心撞击导致的射流动量损失使得雾化性能变差,当无量纲偏心度E为1/8时,一甲基肼(MMH)的Sauter平均直径增大约4.8%,四氧化二氮(NTO)的Sauter平均直径增大约5.8%。      

Six sigma robust design optimization for thermal protection system of hypersonic vehicles based on successive response surface method

Lightweight design is important for the Thermal Protection System(TPS) of hypersonic vehicles in that it protects the inner structure from severe heating environment. However, due to the existence of uncertainties in material properties and geometry, it is imperative to incorporate uncertainty analysis into the design optimization to obtain reliable results. In this paper, a six sigma robust design optimization based on Successive Response Surface Method(SRSM) is established for the TPS to improve the reliability and robustness with considering the uncertainties. The uncertain parameters related to material properties and thicknesses of insulation layers are considered and characterized by random variables following normal distributions. By employing SRSM, the values of objective function and constraints are approximated by the response surfaces to reduce computational cost. The optimization is an iterative process with response surfaces updating to find the true optimal solution. The optimization of the nose cone of hypersonic vehicle cabin is provided as an example to illustrate the feasibility and effectiveness of the proposed method.     

SiO32-浓度对KMnO4/FeSO4工艺除磷过程的影响

考察了天然水体中常见的SiO_3~(2-)对KMnO_4/FeSO_4工艺混凝除磷的影响。SiO_3~(2-)存在时KMnO_4/FeSO_4工艺混凝除磷的效能随着溶液pH的升高呈现先增加后降低的趋势。SiO_3~(2-)浓度为1.0 mmol/L,溶液pH值为4～6时,SiO_3~(2-)可促进KMnO_4/FeSO_4工艺除磷的效能,KMnO_4/FeSO_4工艺对磷的去除效果分别增加了6.0%,9.9%和6.3%;溶液pH值为7～9时,SiO_3~(2-)可显著抑制KMnO_4/FeSO_4工艺除磷的效能,KMnO_4/FeSO_4工艺对磷的去除效果分别降低了14.76%,32.6%和17.3%。KMnO_4/FeSO_4工艺形成的絮体颗粒物表面ζ电位显著降低,溶液中残余铁的量明显提高。另外,水中SiO_3~(2-)对KMnO_4/FeSO_4工艺形成的絮体颗粒物的组成和表面特征均有一定影响。该研究为KMnO_4/FeSO_4工艺混凝除磷技术的推广提供了必要的理论基础。     

一种开关磁阻电机无位置传感器控制效率优化策略

针对开关磁阻电机(SRM)的简化磁链法只能实现单相导通运行且导通区间固定的缺点,提出了一种结合固定关断角和自适应调节开通角的无位置传感器控制技术。利用曲线拟合关断位置磁链取代传统存储数据表,通过对比实时计算的动态磁链和曲线拟合的静态磁链,确定关断位置信号并估计转速和其他位置。考虑电机阻抗和电感的非线性特点,优化电感最小区域的开通角自调节模型确定导通区间。仿真结果验证了该方案的可行性和正确性,能够实现转子位置的间接检测,电机的运行效率得到进一步优化。     

航空发动机双转子系统“临界跟随”现象的机理及影响

为了探明“临界跟随”现象导致航空发动机振动居高不下的产生机理,建立了考虑中介轴承的双转子动力学模型,推导了双转子发生“临界跟随”现象时参数之间的关系,分析了“临界跟随”状态下转子系统的动力学特性。结果表明:“临界跟随”现象会导致转子系统无法越过盘偏摆振型临界转速,造成转子振动对不平衡质量分布极其敏感,其主要影响因素为盘极转动惯量与直径转动惯量的比值(简称惯量比)以及双转子增速比；当高压盘等效惯量比等于1,或增速比与任意低压盘惯量比相等时,转子系统表现出高压激励条件下的“临界跟随”特征；当低压盘惯量比等于1,或增速比与高压盘等效惯量比的乘积等于1时,转子系统表现出低压激励条件下的“临界跟随”特征。提出了必须严格控制航空发动机叶盘的等效惯量比以及双转子转速控制律的设计建议。      

基于CMPSO算法的永磁同步电机转动惯量识别研究

永磁同步电机(PMSM)是一种具有很强非线性的动态系统,在工业驱动应用中发挥着重要作用。实时辨识转动惯量对于高精度PMSM系统控制和稳定性状态监测具有重要意义,但传统转动惯量识别方法精度较低。在传统离散模型参考自适应理论基础之上,用柯西变异粒子群优化(CMPSO)算法代替待辨识参数自适律设计环节,以实现PMSM转动惯量识别。该转动惯量辨识方法充分利用了CMPSO算法的快速高效收敛性,仿真结果和试验结果表明了可行性、正确性和准确性。     

基于遗传-支持向量机的对置活塞二冲程柴油机气口高度优化

以某对置活塞二冲程柴油机为研究对象,基于一维仿真模型,利用遗传-支持向量机的方法,以油耗为优化目标,进行不同转速工况下进排气口高度组合的自动化寻优。结果表明:在1200r/min下,优化的进、排气口无量纲化高度组合为［0.075,0.105］,所得最小油耗为220.32g/(kW·h);对置活塞二冲程柴油机的气口最优高度应随着转速的提高逐渐增大;且在高转速(大于1600r/min)下,排气口最优高度增加趋势更加明显。      

Ionospheric TEC disturbances over China during the strong geomagnetic storm in September 2017

From September 7 to 8, 2017, a G4-level strong geomagnetic storm occurred, which seriously impacted on the Earth’s ionosphere. In this work, the global ionospheric maps released by Chinese Academy of Sciences are used to investigate the ionospheric responses over China and its adjacent regions during the strong storm. The prominent TEC enhancements, which mainly associated with the neutral wind and eastward prompt penetration electric field, are observed at equatorial ionization anomaly crests during the main phase of the storm on 8 September 2017. Compared with those on 8 September, the TEC enhancements move to lower-latitude regions during the recovery phase on 9 September. A moderate storm occurred well before the start of the strong storm causes similar middle-latitude TEC enhancements on 7 September. However, the weak TEC depletion is observed at middle and low latitude on 9–10 September, which could be associated with the prevailing westward disturbance electric field or storm-time neural composition changes. In addition, the storm-time RMS and STD values of the ionospheric TEC grids over China increase significantly due to the major geomagnetic storm. The maximum of the RMS reaches 12.0 TECU, while the maximum of the STD reaches 8.3 TECU at ~04UT on 8 September.     

Establishment of atmospheric weighted mean temperature model in the polar regions

Due to the special geographical location and extreme climate environment, the polar regions (Antarctic and Arctic) have an important impact on global climate change. Atmospheric weighted mean temperature (Tm) is a crucial parameter in the retrieval of precipitable water vapor (PWV) from the zenith wet delay (ZWD) of ground-based Global Navigation Satellite System (GNSS) signal propagation. In this paper, the correlation between weighted mean temperature and surface temperature (Ts) is studied firstly. It is shown that the correlation coefficients between Tm and Ts are 0.93 in the Antarctic and 0.94 in the Arctic. The linear regression Tm model and quadratic function Tm model of the Antarctic and the Arctic are established respectively using the radiosonde profiles of 12 stations in the Antarctic and 58 stations in the Arctic from 2008 to 2015. The accuracies of the linear regression Tm model, the quadratic function Tm model and GPT2w Tm model which is a state-of-the-art global Tm model are verified using the radiosonde profiles from 2016 to 2018 in the Antarctic and Arctic. Root Mean Square (RMS) errors of the linear regression Tm model, the quadratic function Tm model and GPT2w Tm model in the Antarctic are 3.07 K, 2.87 K and 4.32 K respectively, and those in the Arctic are 3.53 K, 3.38 K and 4.82 K, which indicates that the quadratic function Tm model has a higher accuracy compared to linear regression Tm model, and the accuracies of the two regional Tm models are better than that of GPT2w Tm model in the polar regions. In order to better evaluate the accuracy of Tm in the PWV retrieval, the PWV values of radiosondes are used for comparisons as the reference value. The RMS errors of PWV derived from the two Tm models are similar for 1.28 mm in the Antarctic and 1 mm in the Arctic respectively. In addition, the spatial and temporal variation characteristics of Tm are analyzed in the polar regions by spectral analysis of Tm data using fast Fourier transform. The results show that the Tm has obvious seasonality and annual periodicity in the polar regions, and the maximum difference between warm season and cold season is about 63 K. After comparing and analyzing the influences of latitude, longitude and elevation on the Tm in the polar regions, it is found that latitude and elevation have a greater influence on the Tm than the longitude. As the latitude and elevation increase, the Tm decreases, and vice versa in the polar regions.