H2O污染对超燃冲压发动机燃烧室性能影响的三维数值模拟

为了解来流污染对超燃冲压发动机性能的影响,需要大量的实验和CFD模拟。基于纯净空气和污染空气(H2O)来流下燃烧对比实验,采用较为详细的化学反应动力学模型(13组分33方程),对三个试验条件的燃烧室反应流场进行了三维大规模并行CFD模拟。模拟结果与对比试验测得的壁面压强比较接近,能"分辨"试验气体中H2O的污染影响。模拟结果显示,从燃烧室整体性能看,7.4%H2O和18.3%H2O污染导致燃烧室单位流量的空气对应推力分别下降4.1%和10.7%,而燃烧室燃烧效率分别下降5.5%和9.5%。     

结冰对翼型及翼身组合体气动特性影响研究

飞机结冰是影响飞机飞行安全的重要因素之一,研究结冰对飞机气动性能的影响具有重要意义。应用多块结构化网格生成方法,通过求解雷诺平均N-S方程分别对翼型及DLR-F4翼身组合体干净外形和三种不同带冰外形的流场进行计算,分析不同冰型对翼型及翼身组合体绕流流场及气动特性的影响。     

基于动力学的无损检测方法在复合材料桨叶上的应用

基于动力学理论建立了复合材料桨叶结构特性分析及损伤检验的动力学方法。首先通过有限元瞬态分析获取复合材料桨叶在具体边界条件下的工作变形,即ODS;然后运用基于移动矩形窗的最小二乘拟合方法,提取边界层函数因子;最后根据边界层函数及组合的特性变化进行SA349桨叶及直九尾桨的损伤检测,实现了直升机桨叶上损伤位置的有效识别和定位,验证了该方法的有效性。     

环形燃烧室壁温对热声不稳定性影响的实验研究

为了研究壁温效应对热声振荡的影响,本文基于环形燃烧室/涡轮耦合实验平台,在当量比Φ=0.82和燃烧功率P=15.5 kW的工况参数下开展了实验研究。相比于独立环形燃烧室实验,本文所引入的涡轮导叶出口组件,使得燃烧室跟发动机实际工况出口匹配情况更接近,具有更一致的热声环境和热容效应。实验发现,在壁温升高过程中伴随着不同类型热声不稳定模式间的切换以及振荡频率、幅值等参数的演变。进一步选取了6个典型状态点,结合基于火焰图像序列的动态模态分解,对比光电倍增管信号和不同方位角的声压信号,分析了各个状态点的火焰动力学和声学响应特征。实验结果表明,在固定功率和当量比工况下,受燃烧室壁面热平衡状态的影响,热声不稳定模式先后经历了由亥姆霍兹模式、1/4波纵向模式、周向混合模式和旋转模式所主导的过程。在出现周向模式的初期,其表现为旋转率呈现肥尾分布的驻波旋-转混合模式,而后期演变为旋转率的分布相对集中的逆时针方向旋转模式。     

Evaluation and analysis on positioning performance of BDS/QZSS satellite navigation systems in Asian-Pacific region

By using the observation data and products of precise obit and clock offset from Multi-GNSS Experiment (MGEX) of the International GNSS Service (IGS) and GNSS Research Centre, Curtin University in this paper, the positioning performance of BDS/QZSS satellite navigation system has been analyzed and evaluated in aspects of the quantity of visible satellites, DOP value, multipath effect, signal-to-noise ratio, static PPP and kinematic PPP. The analysis results show that compared to BDS single system when the cutoff angle are 30°and 40°, the DOP value of BDS/QZSS combined system has decreased above 20%, and the quantity of visible satellites increased about 16–30% respectively, because of the improved spatial geometric configuration. The magnitude of satellite multipath effect of BDS system shows the trend of MEO?>?IGSO?>?GEO, which is consistent with that of QZSS satellite system, as the constellation structure of the two systems is similar. The variation tendencies of signal-to-noise ratio with respect to elevation angle of the two systems are almost the same at all frequencies, showing that at the same elevation angle the signal-to-noise ratio of MEO satellites is higher than that of IGSO satellites, as the higher obit is the lower transmitting power is obtained. For having a specially designed obit, the variation of signal-to-noise ratio of BDS system is more stable. However, the magnitude of signal-to-noise ratio of QZSS system appears the trend of frequency 3?>?frequency 2?>?frequency 1. The static PPP performance of the BDS/QZSS combination system has been improved more significantly than the BDS single system in E, N and U directions. When the cutoff angle are at 7°, 15° and 30°, the PPP accuracy is increased about 25–34% in U direction, 10–13% and 23–34% in E and N directions respectively. When the elevation angle is large (40°), compared to BDS single system at lower elevation angles (7° and 15°) the PPP accuracy of the BDS/QZSS combination system is improved above 30% in U direction. In kinematic PPP performance, compared to BDS single system, the accuracy, availability and reliability of the BDS/QZSS combination system has been improved too, especially at large elevation angles (30° and 40°), the kinematic PPP accuracy in E and U directions has been improved about 10–50%, and above 50% in U direction. It can be concluded that the combination with QZSS system can improve the positioning accuracy, reliability and stability of BDS system. In the future, with the improvement of the satellite construction of Japan’s QZSS system and the global networking of China’s BDS satellites, the QZSS satellites will contribute greatly to improve the positioning accuracy, reliability, availability and stability of GNSS systems in areas such as cities, mountains, densely-packed buildings and severely covered areas in Asian-Pacific region.     

工作绩效综合评价与分级管理及实证

本文针对目前员工绩效评价中的问题进行研究。建立了绩效评价指标体系，给出工作绩效考评法；并据综合绩效进行归类分级，提出对员工分类激励的方法，给出实证结果。     

发散波束在媒质界面上的Goos-H(a)nchen位移与焦移

在全反射中研究了发散波束在两种不同媒质界面上Goos-H(a)nchen位移与焦移.首先,通过建立发散光束全反射简单光线模型来显示焦移的形成.然后,从波动光学出发,利用Fourier光学中的角谱法推导出Gauss发散波束入射下Goos-H(a)nchen位移和焦移的近似关系式.结果表明,由Carniglia 和 Brownstein 针对于均匀波束提出的Goos-H(a)nchen位移和焦移的微分关系式同样也适用于Gauss发散波束入射的情况.最后,通过数值模拟总结出了焦移的一些不同于Goos-H(a)nchen位移的特殊性质.这些特殊性质的发现为改善现有实验和工程精度提供了新路径.     

阻拦索断裂对螺旋桨舰载机着舰安全影响数值分析

喷气动力舰载机着舰拦阻滑跑，如阻拦索断裂，其逃逸复飞的概率极小。螺旋桨动力舰载机零升阻力大，推重比小，其安全复飞的能力值得研究。本文基于建立的螺旋桨舰载机逃逸复飞仿真模型（含阻拦索工作模型、发动机动力响应模型、升降舵操纵模型与气动力的动力影响修正模型），数值模拟了E-2C舰载预警机着舰阻拦索断裂情况下，其逃逸复飞的过程。仿真计算显示对象飞机在不同气动力、离舰速度与舵面操纵逻辑状态下，其纵向动力学方程中敏感参数与航迹下沉量的动态变化，结合视频数据分析其复飞成功的原因。研究表明：动力对螺旋桨舰载机俯仰力矩与升力特性的影响是其逃逸复飞成功的关键。动力影响使对象飞机的俯仰力矩曲线上移0.15，8°迎角下纵向静稳定性减小85%，升力线斜率增大29.7%、最大升力系数增大39%。这显著改善了螺旋桨飞机逃逸复飞状态下俯仰操纵的敏捷性，升降舵操纵效率与失速特性。动力影响使螺旋桨舰载机可在较小的加速度、离舰速度与有限的留空时间情况下，迅速改变其航迹角，减小航迹下沉量，保证逃逸复飞安全。     

磷化底漆与阿洛丁化学转化膜耐蚀性能的对比研究

通过电化学阻抗谱和恒电位稳态阳极极化曲线2种电化学测试方法,对磷化底漆和阿洛丁化学转化膜进行了测试,发现磷化底漆的耐蚀性明显优于阿洛丁化学转化膜,其极化电阻RP比阿洛丁转化膜高一个数量级,钝化区电位范围在-0.75～ 1.0V之间,而阿洛丁化学转化膜钝化区电位范围明显偏低,在-2.0～0.00V之间。     

平衡记分卡的演进

自1992年初创以来,平衡记分卡无论从形式、内涵还是从功能来看都发生了很大的变化:确定行动目标的方法由原来对特定问题进行思考的方式转化为直接根据战略来构造;因果关系由原来只存在于各角度之间的一种粗略关系演化成贯穿各个角度并连结各战略目标的一种明确的联系;功能则超越了原来业绩测评系统的局限成为一体化的战略管理系统的核心.这些改进使平衡记分卡更便于操作,应用也更为广泛.