高超音速湍流分离表面热流率的脉动特性

本文给出高超音速湍流分离不稳定特性的实验研究结果。试验条件是:自由流马赫数为 7.8,单位长度雷诺数为 3.5×10~7/米。分离流场由有限展长前向台阶产生,并用有高空间分辨率和快速响应的一列平齐安装的铂膜电阻温度计和多通道系统测量其表面热流率脉动。信号的条件采样分析结果表明:分离激波的根部由一束压缩波构成,流向展长约二分之一来流边界层厚度,在边界层外汇聚成单一主激波。这种激波结构极其不稳定,出现大尺度运动,流向运动的尺度约为分离激波上游影响区域长度的22％。激波振荡频率为一宽频带,主要集中在 1～3 千赫。在分离激波运动区域,热流脉动呈间歇性,在无扰动和激波扰动间跳跃。可以认为这种间歇性是分离激波系统大尺度振荡的结果。在激波运动区域的下游为分离区,流体继续压缩,热流脉动无间歇。     

LFM雷达对临近空间高超声速目标的跟踪研究

针对临近空间高超声速目标跟踪的问题,提出了一种ECEF坐标系下基于径向速度补偿和相邻时刻目标量测对消处理的高超声速目标跟踪算法.首先,充分分析了目标高超声速运动对雷达探测跟踪的影响,并在此基础上合理构建了目标高超声速运动下的量测模型,以避免模型失配所引起的滤波发散问题;其次,利用解模糊处理后的径向速度估计对目标高超声速运动引起的高动态偏差做近似补偿,以将问题转换为低系统偏差下的状态估计问题,最后,通过基于相邻时刻目标量测对消处理的单雷达量测方程构建,可有效回避低系统偏差存在下的航迹关联问题,进而实现临近空间高超声速目标的可靠跟踪.仿真结果表明,与现有的临近空间目标跟踪算法相比,该算法具有较高的定位跟踪精度.     

红外卫星对通用高超滑翔导弹的可探测性分析

随着临近空间高超声速技术的迅猛发展和临近空间高超声速导弹的装备使用,新的军事威胁已成为现实。由于临近空间高超声速导弹飞行弹道低且具有机动飞行的特点,需要对它进行实时探测跟踪才有可能对其飞行弹道进行预测。受地球曲率等因素的影响,地面雷达系统对临近空间高超声速导弹的探测距离有限,且组网探测对雷达数量需求庞大,因此卫星探测是一种较好的手段。对美国当前大力发展的海陆军通用型高超声速滑翔体(Common Hypersonic Glide Body, C-HGB)的红外辐射特性进行了初步分析,并结合高轨红外预警卫星的探测能力,初步分析了预警卫星对处于滑翔飞行阶段的C-HGB的可探测性。结果表明,当前的高轨红外预警卫星难以实现对处于滑翔段的C-HGB的探测,所以需要改进卫星红外探测系统或者组建低轨卫星星座。     

一种临近空间高超声速目标航迹起始算法

提出一种三维空间中基于多普勒的改进修正霍夫变换快速航迹起始算法。利用传统航迹起始算法起始高超声速目标将导致目标容易丢失和虚假航迹增多,这不利于对高超声速目标的跟踪。文中提出的方法在三维空间中首先利用条件约束和多普勒信息辅助剔除部分虚假点,再利用修正霍夫变换法进行航迹起始。该算法不仅能有效起始航迹,而且极大地抑制虚假航迹。通过蒙特卡洛仿真实验表明,该算法能快速高效地起始航迹,是一种可行的临近空间高超声速目标的航迹起始算法。     

Investigation of the effect of nozzle shape on supersonic/hypersonic impactors designed for size discrimination of nanoparticles

In this study the flow field and the nanoparticle collection efficiency of supersonic/hypersonic impactors with different nozzle shapes were studied using a computational modeling approach. The aim of this study was to develop a nozzle design for supersonic/hypersonic impactors with the smallest possible cut-off size d₅₀ and rather sharp collection efficiency curves. The simulation results show that the changes in the angle and width of a converging nozzle do not alter the cut-off size of the impactor; however, using a conical Laval nozzle with an L/D_n ratio less than or equal to 2 reduced d₅₀. The effect of using a cap as a focuser in the nozzle of a supersonic/hypersonic impactor was also investigated. The results show that adding a cap in front of the nozzle had a noticeable effect on decreasing the cut-off size of the impactor. Both flat disks and conical caps were examined, and it was observed that the nozzle with the conical cap had a lower cut-off size.     

临近空间高超声速跳跃式滑翔目标跟踪模型

针对临近空间高超声速跳跃式滑翔目标跟踪问题,在分析目标运动特性的基础上提出了一种二阶时间相关的新型机动跟踪模型,该模型的核心是将加速度作为具有衰减振荡自相关的零均值随机过程,并据此构建了跟踪临近空间高超声速跳跃式滑翔目标的状态方程;为进一步分析模型的运动适应性,结合卡尔曼滤波算法推导了模型的系统动态误差稳态值,从模型参数取值的角度探讨了模型的适应性问题;为提高模型参数设计的合理性,分析了模型中两个参数的对应关系,并给出了参数设计的大致参考区间.理论分析表明,模型具备周期性与衰减性的统一,在短时间内主要表现为周期性,在长时间内主要表现为指数衰减性,这一特性提高了对临近空间高超声速跳跃式滑翔运动描述的合理性,此外,该模型跟踪临近空间高超声速跳跃式滑翔目标时的参数理论取值具有较低的系统动态误差稳态值.仿真实验表明与已有的临近空间高超声速目标单噪声机动模型相比,该模型具有较高的跟踪精度;并通过比较不同参数下的仿真结果一定程度说明了参数取值方法的合理性.     

红外探测器对高超声速飞行器的作用距离分析

为了对临近空间高超声速飞行器进行有效探测预警,计算天基红外探测器的作用距离。首先分析不同的对比度的区别,根据探测几何关系,考虑到目标、背景到探测器之间的大气透过率差异、路径辐射的影响,构建了基于表观对比度的作用距离模型,给出了逐步逼近的求解流程,同时指出模型中的参数仅是波长的函数,与探测距离无关。然后根据实际的飞行器和海洋背景,对天基红外探测器的作用距离进行仿真计算,仿真指出,侧视探测方向下可以取的最大的作用距离;相同速度和探测方向下,中波波段的作用距离均高于长波波段;随着飞行速度的增加,中波波段作用距离的增加量要大于长波波段。     

About the formulation,verification and validation of the hypersonic flow solver Eilmer

We describe the formulation of the gas dynamics and high‐temperature thermochemical modules of the Eilmer code, an open‐source Navier–Stokes solver for transient compressible flow in two and three dimensions. The core gas dynamics formulation is based on finite‐volume cells, and the thermochemical effects are handled with specialised updating schemes that are coupled into the overall time‐stepping scheme. Verification of the code is explored via a number of case studies that use analytic and semi‐analytic solutions as comparison. These include both smooth and shocked flows and are used to demonstrate the order of spatial accuracy of the code. Cases include manufactured solutions for rather abstract inviscid and viscous flow, an idealised detonation wave supported by a curved body, and the transient flow of an idealised but high‐performance shock tube. Validation of the inviscid gas dynamics and thermochemical models is then explored using data from a selection of experimental studies. These studies include ballistic range experiments with chemically‐inert noble gases and high‐temperature chemically‐reacting air. These comparisons show that the code performs well and they provide a lesson in considering a range of experimental data rather than relying upon isolated data points for validation. These verification and validation cases are described in full detail and will be useful for other code developers of high‐temperature compressible flow solvers. Copyright © 2013 John Wiley & Sons, Ltd.     

基于粒子群的高超声速飞行器闭环制导研究

对于高超声速飞行器的研究来说,凭借其超高的飞行速度和飞行高度,能够在短时间内飞行更远的距离。为了达到作战要求,需要规划整个飞行轨迹,而最为重要的便是上升段的制导问题。本文以X-33高超声速飞行器模型为研究对象,提出基于粒子群算法的闭环制导策略,实时修正飞行轨迹,使飞行器最终准确到达目标位置;并对该方法的可靠性进行了仿真验证。仿真结果表明,基于粒子群算法的闭环制导策略优化精度高,物理概念明确,能满足高超声速飞行器上升段的闭环制导需求。     

Flow characteristics of hypersonic inlets with different cowl-lip blunting methods

Under hypersonic flight conditions,the sharp cowl-lip leading edges have to be blunted because of the severe aerodynamic heating.This paper proposes four cowl-lip blunting methods and studies the corresponding flow characteristics and performances of the generic hypersonic inlets by numerical simulation under the design conditions of a flight Mach number of 6 and an altitude of 26 km.The results show that the local shock interference patterns in the vicinity of the blunted cowl-lips have a substantial influence on the flow characteristics of the hypersonic inlets even though the blunting radius is very small,which contribute to a pronounced degradation of the inlet performance.The Equal Length blunting Manner(ELM)is the most optimal in that a nearly even reflection of the ramp shock produces an approximately straight and weak cowl reflection shock.The minimal total pressure loss,the lowest cowl drag,maximum mass-capture and the minimal aeroheating are achieved for the hypersonic inlet.For the other blunting manners,the ramp shock cannot reflect evenly and produces more curved cowl reflection shock.The Type V shock interference pattern occurs for the Cross Section Cutting blunting Manner(CSCM)and the strongest cowl reflection shock gives rise to the largest flow loss and drag.The cowl-lip blunted by the other two blunting manners is subjected to the shock interference pattern that transits with an increase in the blunting radius.Accordingly,the peak heat flux does not fall monotonously with the blunting radius increasing.Moreover,the cowl-lip surface suffers from severe aerothermal load when the shear layer or the supersonic jet impinges on the wall.