二维射流的稳定性分析与流动控制

本文在绝对／对流不稳定性的理论框架下，对二维射流的稳定性进行了数值分析。研究表明射流流场各局部剖面是对流不稳定的，不会产生整体失稳，射流频率由流场中最大增长的不稳定频率确定。将一ＮＡＣＡ０１２翼型放置于射流势流核心区中，改变翼型的偏转角度θ，可使射流剪切层频率与翼型尾流频率发生共振，整个流场产生自激振荡，加强了射流与外界流场和混合，并使射流发生矢量偏转。     

Drag reduction research in supersonic flow with opposing jet

A CFD study on drag reduction in supersonic flow with opposing jet has been conducted. Flowfield parameters, reattachment point position and surface pressure distributions are obtained and validated with experiments. From the analysis on the physical mechanism of drag reduction, it shows the phenomenon that, when the opposing jet blows, the high pressure region is located between the bow shock wave and the Mach disk, which makes the nose region much lower pressure. As the pressure ratio increases, the high pressure region is gradually pushed away from the surface. Larger the total pressure ratio is, the lower of the drag coefficient is. To study the effect of the intensity of opposing jet more reasonably, a new parameter R_PA has been introduced by combining the flux and the total pressure ratio. The study shows that the same shock wave position and drag coefficient can be obtained with the same R_PA with different fluxes and the total pressures, which means the new parameter could stand for the intensity of opposing jet and could be used to analyze the influence of opposing jet on flow field and aerodynamic force.     

用N-S方程有限体积法计算弹体绕流/底喷流

用单元中心有限体积法在物理空间曲线网格离散积分形式N-S方程，用坐标变换计算粘性通量项中的各偏导数值，用Runge-Kutta三步显式格式进行时间推进求解。采用了人工粘性、当地时间步长及隐式残值光顺。计算了旋成体大迎角涡流和带底部喷流的绕流场。计算中发现，各向异性隐式残值光顺较之各向同性隐式残值光顺能更快地加速迭代过程的收敛。计算的物面压力分布与实验基本符合，计算的旋成体大迎角涡流图谱合理。计算结果说明底部喷流对旋成体绕流及空气动力载荷有显著影响。     

喷流控制飞行器气动参数辨识方法研究

研究了喷流控制飞行器的气动建模与参数估计方法,以某飞船返回舱飞行试验为例,通过辨识得到了返回舱再入过程中的气动导数、喷流力矩放大系数等重要气动参数。该方法是研究喷流干扰效应的一种有效途径,辨识结果有助于提高返回舱姿态控制的准确度。     

火花型合成射流激励器流动特性及其激励参数数值研究

利用能量方程中的源项模拟电火花能量的输入,数值模拟了火花型合成射流激励器的流场,获得了激励器的能量蓄积、喷射和吸入过程.结果表明:电火花瞬间能量的输入产生了腔体内的高温、高压环境,从而诱发合成射流的形成;在周期性激励下,合成射流在3个周期后稳定,喷口处的速度呈现非正弦的周期性变化,射流喷射过程时间极短,吸入外界环境气体...     

超音速射流与弹体绕流干扰流场数值分析

绕弹体的超音速气流与火箭发动机燃气喷流相互作用，在弹体底部形成了复杂的干扰流场。本文应用了四阶的ＭＵＳＣＬ ＴＶＤ格式，求解雷诺平均的Ｎ－Ｓ方程，对这一复杂流动进行了数值模拟，得到了流场结构随不同喷口压力的变化规律。     

毛刺和加工精度对涡轮流量影响的数值模拟

为了研究喷嘴内壁毛刺和内壁尺寸加工精度对涡轮流量的具体影响,采用数值计算方法对液动涡轮泵喷嘴机构的单喷嘴内部流动进行数值模拟。通过对比计算结果与试验结果,以及分析计算所得流场细节,表明各工况点计算值与试验值的变化趋势基本一致;毛刺和加工精度对涡轮流量都会产生影响,但相对于加工精度,毛刺是影响涡轮流量的主要因素。     

倾斜射流撞壁实验研究及液膜几何参数建模

倾斜射流撞壁在液体火箭发动机液膜冷却、射流撞壁雾化等领域具有广泛的应用。为了研究倾斜射流撞击壁面后形成的液膜的关键特征，开展单股圆柱射流撞击壁面的实验研究。从实验中研究各射流参数对液膜外形的影响规律，继而开展理论建模，获取液膜外形的关键几何参数表达式。实验研究发现随着射流倾角增大，液膜长度减小而宽度增大，随着射流孔径和射流速度增大液膜长度和宽度均增大这一定性规律。理论分析得到了液膜最大宽度位置与液膜对称面的夹角近似等于射流倾角α，液膜的长宽比近似等于1+cot α。通过进一步分析得到液膜宽度、最大宽度距撞击点的距离、液膜长度这几个液膜关键参数的表达式。建立的液膜几何参数表达式预测结果与实验结果的误差均在20%以内。     

Investigations of tip-jet and exhaust jet development in a ducted fan

The major aim of this work is to investigate the tip-jet and exhaust jet development in a ducted fan as well as the impact on the fan’s performance. The flow field of the ducted fans under the solidity varied from 0.2 to 0.7 are simulated by using the shear-stress transport k-ω turbulence model with a refined high-quality structured grid. The exhaust jet trajectory, expanding range and the flow intersection of the jet and mainstream in the blade passage are analyzed. As the results suggest, the flow direction of the exhaust jet is deflected by the downwash and Coanda effect. The major decay region of the exhaust jet can extend at least 2 times the blade chord downstream from the blade trailing edge. The blade circulation is impacted by the tip-jet rather than the exhaust jet from the upstream when the blade tip pitch angle is 8°, and the fan solidity is less than 0.7. The blade tip thrust is reduced by the interruption from the exhaust jet when the blade tip pitch angle is 2°, and the fan solidity is larger than 0.3.     

公务机预见性航线维修管理

持续分析和监督系统（CASS）是持续适航维修方案（CAMP）的十大要素之一，目的是监督和改进持续适航维修方案的效能，属于安全管理范畴。本文阐述了持续分析与监督系统在公务机航线维修管理的应用与实践效果。