一般令牌网络的性能分析

提出了一般令牌网络的性能分析模型,在模型中,访问方式为“循环策略”,消息包到达各站点服从Ｐｏｉｓｓｏｎ分布,消息包到达率不完全相同,消息包长度既有常数也有负指数分布,根据随时过程的理论导出令牌循环时间Ｔ的均值和方差的一般解析表达式,同时应用排队论的方法进行一步分析了平均消息延时,平均消息长度和逻辑环路利用率。     

剪切翼梢对滚转性能的影响

以某型双发低速飞机为例，对剪切翼梢装置对飞机滚转性能的影响进行了理论研究和分析。结果表明，在相同结构参数和飞行状态下，采用剪切翼梢，将使飞机的滚转性能有所降低。所得结果对飞机设计、特别是飞机改型设计有一定实用价值。     

高性能有机纤维复合材料及其界面性能

综述了高性能有机纤维复合材料在固体火箭发动机壳体的发展应用及其表面改性方法、界面性能的表征，并用实验数据探讨增强材料、树脂系统及复合材料界面对壳体性能的影响，最后指出应当综合地考虑各方面的影响作用才能达到提高固体火箭发动机高性能有机纤维复合材料壳体性能的最终目的。     

E 级计算给 CFD 带来的机遇与挑战

E 级(Exascale)计算机有望在2020年前后投入使用,E 级计算将给计算科学和科学研究带来革命性的变化。计算流体力学(CFD)作为超大规模计算机应用的重要领域之一,将迎来前所未有的发展机遇,同时也将面临极其严峻的技术挑战。本文对当前国内外超大规模 CFD 计算的现状进行了概述,探讨了未来 CFD 的发展趋势,并对 E 级计算给 CFD 带来的机遇与挑战进行了分析,最后提出了适应未来 E 级计算的 CFD 发展思路与建议。为了实现 E 级计算的宏伟目标,CFD 与计算机科学、应用数学等学科的“协同设计”势在必行。我们期待本文的分析能对我国的高性能计算应用、CFD 发展有一定的启示作用。     

尖前缘一体化高温热管启动性能计算分析

针对尖前缘高温热管工程设计与启动性能评估需求,基于描述碱金属高温热管启动过程的“温度锋面”模型,建立了一种用于分析不规则外形且承受非均匀瞬态气动加热的一体化尖前缘高温热管启动性能工程计算方法。该方法结合尖前缘气动加热环境分布特点进行计算节点划分,采用热管基本理论和局部能量守恒原理计算热管温度分布及“温度锋面”位置,实现尖前缘热管启动过程的理论预测。同时,采用均匀受热圆柱热管和尖前缘一体化热管启动试验结果对计算方法进行了验证。最后针对某尖前缘一体化高温热管结构在气动加热环境下的启动性能进行计算分析,提出了减小尖前缘高温热管启动时间的可能方法和措施：尖前缘高温热管启动后等温性良好,通过控制热管总长、壳体厚度、工质充装量等设计参数或调整热管初始温度可进一步缩短热管启动时间。     

压气机机匣零件切削刀具配置专家系统开发

现代航空发动机零件结构越来越复杂,涉及的刀具种类与数量也越来越多,给刀具选择与工艺制定带来了严峻挑战.以某型压气机机匣零件为研究对象,以最佳刀具配置为研究目标,在压气机机匣零件切削数据库的基础上,设计开发了基于B/S结构的压气机机匣零件切削刀具配置专家系统,并进行了实例演示.该系统首先根据被加工对象特征及其需求,运用规则推理方法初选刀具;进而应用人工神经网络预测初选刀具的耐用度及被加工特征的表面粗糙度;最后以该预测结果作为参考,应用综合评判技术进行刀具性能评价,并对所选刀具进行优化排序和完成推荐.系统运行实例验证了所开发系统能够实现压气机机匣零件切削加工刀具的智能选取.     

熔盐泵外特性及内部流动的试验及数值模拟

为了揭示熔盐泵内两相流动的规律,研究了熔盐泵试验方法,得到了熔盐泵的外特性.采用粒子成像测速（PIV）技术测量了蜗舌附近熔盐泵内流动,并对熔盐泵内两相流动进行了非定常数值模拟,阐述了试验结果与模拟结果之间的差别,获得了晶体颗粒在熔盐泵内的体积分数分布,并分析了其演化规律.结果表明:熔盐泵内晶体颗粒体积分数分布较稳定,颗粒集中于叶片吸力面附近.粒径对颗粒在叶轮流道内的积聚影响比较大,粒径越大,颗粒积聚越明显.熔盐泵出口静压周期性波动,波动幅度受叶轮内颗粒体积分数分布影响.      

Ground experimental investigations into an ejected spray cooling system for space closed-loop application

Spray cooling has proved its superior heat transfer performance in removing high heat flux for ground applications.However,the dissipation of vapor–liquid mixture from the heat surface and the closed-loop circulation of the coolant are two challenges in reduced or zero gravity space environments.In this paper,an ejected spray cooling system for space closed-loop application was proposed and the negative pressure in the ejected condenser chamber was applied to sucking the two-phase mixture from the spray chamber.Its ground experimental setup was built and experimental investigations on the smooth circle heat surface with a diameter of 5 mm were conducted with distilled water as the coolant spraying from a nozzle of 0.51 mm orifice diameter at the inlet temperatures of 69.2 °C and 78.2 °C under the conditions of heat flux ranging from 69.76 W/cm~2 to 311.45 W/cm~2,volume flow through the spray nozzle varying from 11.22 L/h to 15.76 L/h.Work performance of the spray nozzle and heat transfer performance of the spray cooling system were analyzed;results show that this ejected spray cooling system has a good heat transfer performance and provides valid foundation for space closed-loop application in the near future.     

Direct thrust test and asymmetric performance of porous ionic liquid electrospray thruster

In order to meet the demand of CubeSats for low power and high-performance micro-propulsion system, a porous ionic liquid electrospray thruster prototype is developed in this study. 10 × 10 conical emitter arrays are fabricated on an area of 3.24 cm² by computer numerical control machining technology. The propellant is 1-ethyl-3-methylimidazolium tetrafluoroborate. The overall dimension of the assembled prototype is 3 cm × 3 cm × 1 cm, with a total weight of about 15 g (with propellant). The performance of this prototype is tested under vacuum. The results show that it can work in the voltage range of ±2.0 kV to ±3.0 kV, and the maximum emission current and input power are about 355 μA and 1.12 W. Time of Flight (TOF) mass spectrometry results show that cationic monomers and dimers dominate the beam in positive mode, while a higher proportion of higher-order solvated ion clusters in negative mode. The maximum specific impulse is 2992 s in positive mode and 849 s in negative mode. The thrust is measured in two methods: one is calculated by TOF results and the other is directly measured by high-precision torsional thrust stand. The thrust (T) obtained by these two methods conforms to a certain scaling law with respect to the emission current (I_em) and the applied voltage (V_app), following the scale of T ∼ I_emV_app^0.5, and the thrust range is from 2.1 μN to 42.6 μN. Many thruster performance parameters are significantly different in positive and negative modes. We speculate that due to the higher solvation energy of the anion, more solvated ion clusters are formed rather than pure ions under the same electric field. It may help to improve thruster performance if porous materials with smaller pore sizes are used as reservoirs. Although there are still many problems, most of the performance parameters of ILET-3 are good, which can theoretically meet the requirements of CubeSats for micro-propulsion system.     

考夫曼离子推力器放电室数值模拟研究综述及展望

首先分析了影响考夫曼离子推力器放电性能的关键因素,然后按照仿真模型的维度对考夫曼离子推力器放电室数值模拟方法进行了分类综述和优缺点分析,并针对以流体方法为基础的各向异性界面问题进行了分析。在此基础上,概述了零维模型、二维模型和三维模型下针对放电室所取得的数值模拟研究结果。最后对考夫曼离子推力器放电室数值模拟研究进行了总结及展望。