中西神话Milk Way之比较

Milk Way这个庞大遥远的星系,中国人把它叫做"银河",而西方则称之为"奶路".不同的文化,对同一个星系给出了截然不同的诗意阐释.文章从几个方面比较了中西神话传说的异同.     

水平表面气流剪切作用下的水膜厚度

飞机结冰表面上的液态水受气流吹拂作用会发生向后溢流,从而影响结冰区域范围及防冰系统设计;为了获得水膜流动规律,对水平平板表面上气流剪切驱动的水膜流动进行了实验测量和建模分析。通过水膜流动风洞试验台产生高速气流驱动水膜的流动,使用色散共焦位移计测量同一位置的水膜在不同时刻的厚度变化,结果表明气-液界面由底层薄水膜和多种尺度的波动组成,具有变化速度快随机性强的特点。通过水膜厚度随气流速度及水膜雷诺数的变化规律,发现平均水膜厚度与两者均呈现出单调非线性的依赖关系。基于薄水膜流动理论和平均水膜厚度实验结果,提出了高速气流剪切作用下的气-液波动界面剪切因子计算式,适用于风速17.8~52.2m/s,水膜雷诺数26~128之间的平板水膜流动计算。     

基于特征模型的火箭发动机伺服控制系统设计

以新型大推力火箭发动机为研究对象,提出了基于特征模型的伺服系统控制器设计方法。首先,介绍了特征建模理论并讨论了特征模型参数范围;其次,采用人工蜂群算法实时估计火箭发动机伺服系统特征模型参数,使其满足特征模型输出与实际系统输出特性等价条件;最后,使用黄金分割自适应控制律保证系统在参数估计过程中的闭环稳定性,同时引入前馈跟踪控制律,逻辑积分控制律和逻辑微分控制律使伺服控制系统快速、精确跟踪线位移指令并改善动态性能。仿真结果表明,设计的火箭发动机伺服控制系统指令跟踪精度高,动态特性良好,鲁棒性强。     

月面探测器月夜休眠自主唤醒方法

提出一种月面探测器休眠自主唤醒方法:月夜来临时通过地面控制对月面探测器所有设备进行休眠操作;月昼来临时靠太阳光触发唤醒功能,由休眠唤醒电路自主发送指令唤醒探测器,解决月面探测器安全可靠度过月夜的能源供给问题。该方法已通过在轨验证,可为其他深空探测任务提供参考。     

液体火箭发动机涡轮泵用机械密封温度场及热载变形研究

基于ANSYS数值计算软件,建立了液体火箭发动机涡轮泵用机械密封的二维稳态传热模型,依靠经验公式确定了模型的对流换热系数。计算了密封环的温度场和热载变形,分析了密封端面比压、回流流量以及不同材质对密封温度场的影响规律。结果表明:密封端面最高温度发生在靠近密封环内径处,且密封端面比压越大密封环温度梯度越大;密封环热载变形呈收敛间隙,最大变形发生在动环端面的外径处,其值约为2.2μm;密封环端面最高温度随回流流量增加而减小,当回流流量从0.1~0.6 kg/s变化时,密封环端面最高温度可降低18%(从100℃降至82℃);当回流流量增大到0.3 kg/s时,继续提高对密封环端面温升的控制不再显著;采用高导热系数的摩擦副材料能够显著降低端面温升和温度梯度,提高密封工作可靠性。     

中英企业合作的桥梁——访英国制造技术协会北京代表李虎城先生

[编者按]有人用"没落的贵族"来形容当前的英国机床工具行业.从字面上讲,"没落"意为走下坡路,不再拥有曾经的辉煌;"贵族"指仍然拥有高贵"气质",在某些方面具有自身的特点和优势.通过采访英国制造技术协会北京代表李虎城先生,记者对英国制造企业的现状有了更深的理解:不再去做大批量的生产,而是主攻具有高附加值的高、精、尖和个性化产品,并掌握着核心技术."没落"原来是表象,"贵族"还是本质.     

Flow separation control on swept wing with nanosecond pulse driven DBD plasma actuators

A 15° swept wing with dielectric barrier discharge plasma actuator is designed.Experimental study of flow separation control with nanosecond pulsed plasma actuation is performed at flow velocity up to 40 m/s. The effects of the actuation frequency and voltage on the aerodynamic performance of the swept wing are evaluated by the balanced force and pressure measurements in the wind tunnel. At last, the performances on separation flow control of the three types of actuators with plane and saw-toothed exposed electrodes are compared. The optimal actuation frequency for the flow separation control on the swept wing is detected, namely the reduced frequency is 0.775, which is different from 2-D airfoil separation control. There exists a threshold voltage for the low swept wing flow control. Before the threshold voltage, as the actuation voltage increases, the control effects become better. The maximum lift is increased by 23.1% with the drag decreased by 22.4% at 14°, compared with the base line. However, the best effects are obtained on actuator with plane exposed electrode in the low-speed experiment and the abilities of saw-toothed actuators are expected to be verified under high-speed conditions.     

Numerical study on flow fields and aerodynamics of tilt rotor aircraft in conversion mode based on embedded grid and actuator model

A method combining rotor actuator disk model and embedded grid technique is presented in this paper, aimed at predicting the flow fields and aerodynamic characteristics of tilt rotor aircraft in conversion mode more efficiently and effectively. In this method, rotor's influence is considered in terms of the momentum it impacts to the fluid around it; transformation matrixes among different coordinate systems are deduced to extend actuator method's utility to conversion mode flow fields' calculation. Meanwhile, an embedded grid system is designed, in which grids generated around fuselage and actuator disk are regarded as background grid and minor grid respectively, and a new method is presented for ‘donor searching' and ‘hole cutting' during grid assembling. Based on the above methods, flow fields of tilt rotor aircraft in conversion mode are simulated, with threedimensional Navier–Stokes equations discretized by a second-order upwind finite-volume scheme and an implicit lower–upper symmetric Gauss–Seidel(LU-SGS) time-stepping scheme. Numerical results demonstrate that the proposed CFD method is very effective in simulating the conversion mode flow fields of tilt rotor aircraft.