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971.
Rotating experimental investigations were carried out to study the oil sealing capability of two different floating ring seals in cold/hot state for aero-engine. High-speed Floating Ring Seal(HFRS) is a seal with the inner diameter of 83.72 mm and maximum speed of 38000 r/min, and Low-speed Floating Ring Seal(LFRS) is another seal with the inner diameter of 40.01 mm and maximum speed of 18000 r/min. In hot state, sealing air with the temperature of 371 K and oil with the temperature of 343 K was employed to model the working conditions of an aero-engine. Comparisons between floating ring seal and labyrinth seal were done to inspect the leakage performance.More attention was paid to the critical pressure ratio where the oil leakage began. Results show that the critical pressure ratio in cold state is obviously larger than that in hot state for both seals. An underlying sealing mechanism for floating ring seal is clarified by the fluid film, which closely associates with the dimensionless parameter of clearance over rotating diameter(2 c/Dr). Another fantastic phenomenon is that the leakage coefficient in hot state, not the leakage magnitude, is unexpectedly larger than that in cold state. Overall, the leakage performance of the floating ring seal is better than the labyrinth seal. 相似文献
972.
基于动力学边界的结冰飞机安全预警方法 总被引:1,自引:1,他引:0
结冰严重破坏飞机的动力学特性,使飞机的非线性和动力学耦合特性表现明显,导致传统的安全预警方法无法准确有效地评估飞行存在的潜在风险,易引发飞行事故。为解决此问题,提出了一种基于动力学边界的新型安全预警方法,该方法可综合考虑飞机的动力学耦合特性,可为结冰飞机的实时安全预警系统的构建提供有力的理论支撑。首先,基于微分流形理论确定结冰飞机精确的动力学边界,并详细分析了飞机结冰对动力学边界的影响;其次,利用动力学边界相对距离对飞行风险进行量化,结合动力学边界的特性确定了安全预警的方法;最后,搭建了飞行仿真训练系统,并以着陆为训练科目,通过与传统迎角安全预警方法对比,得到基于动力学边界安全预警方法的优越性。研究结果表明,相比于传统迎角限制方法,动力学边界安全预警方法可提前发现飞行中存在的潜在风险,且基于此方法的飞行训练系统可对驾驶员进行结冰安全操纵训练可提高结冰飞机的飞行安全。 相似文献
973.
提出一种面向未来卫星在轨应用的闭环物理高精度时间同步方法。比较了所提方法与其他时间同步方法的区别与优势,建立了远程系统时间同步基本模型与误差传递模型,基于双向测距和时间传递技术分析了高精度钟差获取原理,给出了时钟调整环路的时域频域参数依赖关系。完成了高精度时间同步地面试验系统构建,测试了开环非调钟状态下钟差测量精度误差、闭环调钟状态下时间同步准确度误差以及长时运行情况下的时间同步监测结果。测试结果表明,该方法能够实现优于1 ns量级的时间同步,为高精度时间同步技术研究提供了新的途径。 相似文献
974.
A numerical study is carried out to investigate the influence of a sudden change of the specific force on a three-floated gyroscope with a rotor supported on gas-lubricated bearings.The interference torque is calculated to evaluate the influence by modeling the transient behavior of the rotor-bearing system. In combination with dynamic equations of the rotor displacement,the Reynolds equation is solved on the surface of spiral-grooved conical bearings. It is assumed that a steady state has been obtained with a constant specific force, and then the specific force is suddenly changed and maintained constant after that. Responses of the sudden change are obtained by solving the equations. Numerical results show that the direction of the sudden change of the specific force is the main factor which influences the interference torque curve. With a sudden change along the input direction, the interference torque fluctuation has a constant frequency and a decreasing amplitude. With a sudden change along the output direction, the interference torque fluctuates in a small range. With a sudden change along the spin direction, the change of the interference torque combines a fluctuation and a gradually-changing quasi-equilibrium value. This study provides a supplement to the steady-state error model of the three-floated gyroscope. 相似文献
975.
Zhenli CHEN Minghui ZHANG Yingchun CHEN Weimin SANG Zhaoguang TAN Dong LI Binqian ZHANG 《中国航空学报》2019,32(8):1797-1827
Civil aviation faces great challenges because of its robust projected future growth and potential adverse environmental effects. The classical Tube-And-Wing(TAW) configuration following the Cayley's design principles has been optimized to the architecture's limit, which can hardly satisfy the further requirements on green aviation. By past decades' investigations the BlendedWing-Body(BWB) concept has emerged as a potential solution, which can simultaneously fulfill metrics of noise, emission and fuel burn. The purpose of the present work is to analyze the developments of critical technologies for BWB conceptual design from a historical perspective of technology progress. It was found that the high aerodynamic efficiency of BWB aircraft can be well scaled by the mean aerodynamic chord and wetted aspect ratio, and should be realized with the trade-offs among stability and control and low-speed performance. The structure concepts of non-cylinder pressurized cabin are of high risks on weight prediction and weight penalty. A static stability criterion is recommended and further clear and adequate criteria are required by the evaluations of flying and handling qualities. The difficulties of propulsion and airframe integration are analyzed. The energy to revenue work ratios of well-developed BWB configurations are compared,which are 31.5% and 40% better than that of TAW, using state-of-art engine technology and future engine technology, respectively. Finally, further study aspects are advocated. 相似文献
976.
Availability is a main feature of design and operation of all engineering system. Recently,availability evaluation of periodical inspection systems with different structures is at the center of attention due to the wide application in engineering. In this paper, an analytical and probabilistic availability model for periodical inspection system is proposed by a new recursively algorithm,which can achieve limiting average availability and instantaneous availability of periodical inspection system under arbitrary lifetime and repair-time distributions. Then three application examples are presented, the systems lifetime and repair-time are respectively fellow exponential/exponential,Weibull/normal and Weibull/lognormal distribution. Finally, a Weibull/lognormal system is studied to analyze the dynamic relationship between inspection period and availability. The results indicate that the proposed approach can provide the technology support for improving system availability and determining reasonable inspection period. 相似文献
977.
针对分离式卫星载荷模块(PM)受到扰动时可能与服务模块(SM)发生碰撞的问题,综合音圈电机反电动势(back-EMF)和柔性线缆动力学的效应,基于牛顿欧拉法建立了分离式卫星(DFP)载荷模块动力学模型。基于Hertz接触理论,推导了分离式卫星碰撞过程中连续接触力模型,并分析了碰撞过程中产生的接触力对载荷模块指向精度和指向稳定度的影响。数值仿真结果表明,碰撞使得载荷模块指向精度和指向稳定度下降5个数量级,碰撞后载荷模块可再次恢复到超静超稳工作状态,恢复时间超过1400 s。本文建立的碰撞模型对研究分离式卫星碰撞规避和碰撞控制具有重要意义。 相似文献
978.
研究了同步双小行星系统中共振轨道的设计方法及演化规律。首先,基于双椭球模型建立探测器运动方程,并给出共振轨道初值选取方法。然后,利用改进并行打靶法,提出一种双小行星系统平面共振轨道两步修正方法。同时结合稳定性理论及分岔理论,给出双小行星系统三维共振轨道生成和延拓方法;最后,以双小行星系统1999KW4为例,设计了共振比为1∶1,1∶2,1∶3,1∶4,2∶3的平面和空间共振轨道族,并分析了共振轨道的特性及轨道周期和轨道能量的变化规律。给出的双小行星系统中共振轨道的设计方法具有普适性,对未来双小行星系统探测任务中的轨道设计具有一定的参考意义与借鉴价值。 相似文献
979.
先进战斗机气动弹性设计综述 总被引:5,自引:2,他引:3
中国新一代战斗机的研发引领了飞机设计领域各项技术的创新和发展。针对研制总要求和任务特殊性,中国航空工业成都飞机设计研究所气动弹性专业建立了精益气动弹性设计与验证技术体系。基于多学科优化设计流程,开展了旨在提高飞机气动弹性品质的关键技术攻关、气弹优化设计和分析工作。完成了考虑含全动翼面结构非线性的全机动力学特性地面试验、亚跨超声速颤振模型风洞试验和气动弹性飞行试验验证。在较短的研发周期内,成功实现气动弹性设计目标,为新一代战斗机的成功研制提供了技术保障。描述了该飞机气动弹性设计历程、主要技术工作以及在此基础上取得的技术进步、能力提升以及具有研究所特色的气动弹性设计知识工程建设。 相似文献
980.
面向航空智能制造的DT与AI融合应用 总被引:2,自引:1,他引:1
针对航空装备复杂制造场景下制造过程管控维度多尺度大、制造资源组成复杂性高、质量问题跟踪定位难度大等问题,结合数字孪生(DT)与人工智能(AI)技术特点,开展了面向航空智能制造的DT与AI融合应用研究。基于数字孪生与人工智能应用现状,系统性地阐述了数字孪生与人工智能融合机理,分析了支撑数字孪生与人工智能融合驱动航空智能制造的关键技术和数字孪生与人工智能融合驱动的AI控制中心构建涉及的关键问题,在此基础上重点讨论了加工制造过程自适应控制、智能车间生产过程智能管控、制造过程资源调度与优化决策、产品智能质量控制等应用场景,为数字孪生与人工智能在航空智能制造融合应用提供参考。 相似文献