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461.
This article describes an experimental study on friction and heat transfer performances of a transitional airflow in a rectangular channel with stagger-arrayed short pin fins. Friction factors, average Nusselt numbers and overall thermal performances of the transitional flow are obtained. The experimental study has showed that the pin fins enhance the heat transfer performance significantly, however increasing the flow frictional resistance considerably. After comparing the experimental results with the published data in references, it can be concluded that, in the transitional flow region, the pin fin channels of the proposed geometrical configuration could lead to a significant improvement of an overall thermal performance; for instance, the convective heat transfer performance is increased by at least 68%. By contrast, in the fully turbulent flow region, the ability of the proposed pin fin channels to increase heat transfer performances decreases as the Reynolds number increases. When Re > 6 000, the overall thermal performance becomes lower than the others. 相似文献
462.
针对包含非线性和不确定性的飞机防滑刹车控制系统,本文提出了一种基于LuGre摩擦模型的滑模变结构控制器的设计方法.通过分析系统模型,离线构建了在不同速度和路面参数条件下系统的最优滑移率控制表,同时使用基于动态模型的观测器技术对轮胎/路面不确定的结合性能进行在线辨识.并利用指数趋近率的滑模变结构控制方法有效地抑制了系统的抖振. 相似文献
463.
铝合金搅拌摩擦加工原位反应生成物颗粒增强机制 总被引:2,自引:0,他引:2
在1100-H14铝合金基体表面开凹槽添加Ni粉进行搅拌摩擦加工(Friction Stir Processing,FSP),利用Ni粉在搅拌过程中的碎化及其与基体的原位反应生成的高强、高硬的金属间化合物制备强化的表面复合层。结果表明,不同于添加陶瓷颗粒的FSP工艺,Ni颗粒能在搅拌过程中充分碎化,并与铝基体原位合成金属间化合物,原位自生的增强体颗粒与基体是以金属键合的方式结合在一起,因此与基体金属间具有良好的界面相容性和界面结构,能够很大程度上改善颗粒的强化效果。增强颗粒与基体结合界面的性质对复合层硬度的影响非常显著,为了提高复合层硬度,提出了通过原位反应获得颗粒/基体的高强界面的模型。 相似文献
464.
微吹减阻技术影响因素的数值模拟 总被引:1,自引:0,他引:1
以NASA格伦中心的PN3和PN23型微孔壁板为原形建立"1排微孔"、"4排微孔"、"8排微孔"和"16排微孔"4种计算模型,针对不同的几何、物理参数进行了微吹技术MBT(Micro-Blowing Technique)降低平板摩擦阻力的数值模拟参数研究.结果显示:微量吹气使主流边界层近壁面流动减速,从而改变了壁面局部摩擦力的分布;不同几何、物理参数对MBT技术减阻能力的影响满足一定的规律.参数研究的结果可为该技术的减阻应用提供一定的指导. 相似文献
465.
径向两星库仑编队队形保持自适应控制研究 《空间控制技术与应用》2017,43(3):28-32
研究地球同步轨道处径向两星库仑编队队形保持的自适应控制问题.建立了双星库仑编队在地球同步轨道处径向两星库仑编队动力学模型.基于建立的非线性化动力学模型,同时考虑到外部扰动和动力学模型误差等因素,设计径向两星库仑编队在地球同步轨道处的构型保持自适应控制律,并利用Lyapnuov稳定性理论证明系统的闭环稳定性.最后进行数值仿真,并与传统PID控制进行了比较.仿真结果表明提出的自适应控制律响应速度快,稳定性好,编队构型能够收敛到期望值,控制性能明显优于PID控制. 相似文献
466.
467.
《中国航空学报》2023,36(4):104-119
Dielectric Barrier Discharge (DBD) based turbulent drag reduction methods are used to reduce the total drag on a NACA 0012 airfoil at low angels of attack. The interaction of DBD with turbulent boundary layer was investigated, based on which the drag reduction experiments were conducted. The results show that unidirectional steady discharge is more effective than oscillating discharge in terms of drag reduction, while steady impinging discharge fails to finish the mission (i.e. drag increase). In the best scenario, a maximum relative drag reduction as high as 64 % is achieved at the freestream velocity of 5 m/s, and a drag reduction of 13.7 % keeps existing at the freestream velocity of 20 m/s. For unidirectional discharge, the jet velocity ratio and the dimensionless actuator spacing are the two key parameters affecting the effectiveness. The drag reduction magnitude varies inversely with the dimensionless spacing, and a threshold value of the dimensionless actuator spacing of 540 (approximately five times of the low-speed streak spacing) exists, above which the drag increases. When the jet velocity ratio smaller than 0.05, marginal drag variation is observed. In contrast, when the jet velocity ratio larger than 0.05, the experimental data bifurcates, one into the drag increase zone and the other into the drag reduction zone, depending on the value of dimensionless actuator spacing. In both zones, the drag variation magnitude increases with the jet velocity ratio. The total drag reduction can be divided into the reduction in pressure drag and turbulent friction drag, as well as the increase in friction drag brought by transition promotion. The reduction in turbulent friction drag plays an important role in the total drag reduction. 相似文献
468.
《中国航空学报》2023,36(8):207-228
The Synchronized Switch Damping (SSD) is regarded as a promising alternative to mitigate the vibration of thin-walled structures in aero-engines, especially for blades or bladed disks. The common manner is to shunt the switch circuit independently to a single piezoelectric structure. This paper is aimed at exploring a novel way of using the SSD, i.e., the SSD is interconnected between two piezoelectric structures or substructures. The damping mechanism, performance, and effective range of the interconnected SSD are studied numerically and experimentally. First, based on a dual cantilever beam finite element model, the time domain and frequency domain modeling and solving methods of the interconnected SSD are deduced and validated. Then, the influence of the amplitude and phase relationship on the damping effect of the interconnected SSD is numerically studied and compared with the shunted SSD. A self-sensing SSD control board is developed, and experimental studies are carried out. The results show that the interconnected SSD establishes an additional energy channel between the corresponding piezoelectric structures. When the amplitudes of the two cantilever beams are different, the interconnected SSD balances the vibration level of each beam. When the amplitudes of the two cantilever beams are the same, if the appropriate interconnection manner is selected according to the phase, the resonance peak can be reduced by more than 30%. When the vibration is in-phase/out-of-phase, the damping generated by the interconnected SSD in a cross/parallel manner is even more significant than the shunted SSD. Furthermore, this novel connection scheme reduces the number of SSD circuits in half. Finally, for engineering applications, we implement the proposed damping technology to the finite element model of a typical dummy bladed disk. A piezoelectric damping ratio of 13.7% is achieved when the amount of piezo material is only 10% of blade mass. Compared with traditional friction dampers, the major advancements of the interconnected SSD are: (A) it can reduce the vibration level of blades without friction interface; (B) the space constraint is overcome, i.e., the vibration energy is not necessarily dissipated independently in one sector or through physically adjacent blades, and instead, the dissipation and transfer of vibrational energy can be realized between any blade pair. If a specific gating circuit is adopted to adjust the interconnection manner of the SSD, vibration mitigation under variable working conditions with different engine orders will be expected; (C) designers do not need to worry about the annoying nonlinearities related to working conditions anymore. 相似文献
469.
《中国航空学报》2023,36(3):80-95
A direct numerical simulation of hypersonic Shock wave and Turbulent Boundary Layer Interaction(STBLI) at Mach 6.0 on a sharp 7° half-angle circular cone/flare configuration at zero angle of attack is performed. The flare angle is 34° and the momentum thickness Reynolds number based on the incoming turbulent boundary layer on the sharp circular cone is Reθ = 2506. It is found that the mean flow is separated and the separation bubble occurring near the corner exhibits unsteadiness. The Reynolds analogy factor changes dramatically across the interaction, and varies between 1.06 and 1.27 in the downstream region, while the QP85 scaling factor has a nearly constant value of 0.5 across the interaction. The evolution of the reattached boundary layer is characterized in terms of the mean profiles, the Reynolds stress components, the anisotropy tensor and the turbulence kinetic energy. It is argued that the recovery is incomplete and the near-wall asymptotic behavior does not occur for the hypersonic interaction. In addition, mean skin friction decomposition in an axisymmetric turbulent boundary layer is carried out for the first time. Downstream of the interaction, the contributions of transverse curvature and body divergence are negligible, whereas the positive contribution associated with the turbulence kinetic energy production and the negative spatial-growth contribution are dominant. Based on scale decomposition, the positive contribution is further divided into terms with different spanwise length scales. The negative contribution is analyzed by comparing the convective term, the streamwise-heterogeneity term and the pressure gradient term. 相似文献
470.
针对高温环境下轴承材料性质和润滑状态变化,造成轴承磨损加剧,过早丧失精度的问题。首先开展高温环境下轴承用材料的摩擦磨损试验,获取材料的磨损系数。在此基础上,考虑温度、润滑、轴承材料属性等对轴承磨损性能的影响,建立高温角接触球轴承磨损模型,通过数值求解探讨工况参数和结构参数等对轴承磨损性能的影响,并评估轴承的磨损寿命。结果表明:对于高温轴承材料无磁合金GH05,在高温300 ℃摩擦状态下平均磨损系数为2.5×10-7 mm2/N;随着载荷、转速、温度的增加,轴承内、外滚道的磨损率均不断增大,其中内圈磨损率大于外圈,内圈磨损特性决定着轴承的磨损寿命;载荷和转速是决定轴承磨损寿命的主要因素,轴承主结构参数对磨损寿命具有重要影响,通过结构优化可提高轴承磨损寿命。 相似文献