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1.
低雷诺数下周期性尾迹/层流分离泡相互作用的大涡模拟 总被引:7,自引:0,他引:7
本文采用大涡模拟(LES)方法,对低雷诺数条件下周期性尾迹/层流分离泡的相互作用进行了数值模拟.计算域入口尾迹采用独立计算的平面尾迹流给出.对周期性尾迹作用下的层流分离泡进行了统计特性及瞬态流场分析,并与相同条件下的无尾迹流动进行比较.计算结果表明:在尾迹作用下,时均层流分离泡长度明显缩短,分离泡变小;相位平均的分离点/再附点随时间不断变化;从瞬态结果容易看出,尾迹诱导的流向涡结构是导致分离泡提前转捩的主要原因. 相似文献
2.
为了研究等离子体环量控制对翼型的影响特性,采用基于唯象学的等离子体气动激励数学模型和二维雷诺平均N-S方程,选取NCCR 1510-7067N环量控制翼型,数值模拟后缘半径对升力和效费比的影响规律,并进行优化。设计最佳后缘半径模型进行低速风洞实验,获得迎角-4~12,速度6,10,15 m/s下的压力分布和升力特性。研究表明:后缘半径过大或过小都不利于Coanda效应的产生,确定最佳后缘半径与弦长的比值为0.048,效费比97.69。低雷诺数下,随着迎角的增加,出现了层流长泡分离和短泡分离,等离子体射流不仅改善了尾部流场,还通过环量增加抑制层流分离,提高了升力。 相似文献
3.
翼型绕翼流动对风力机整机性能产生重要影响.本文基于大涡模拟方法,得到风力机翼型非定常转捩流动.通过对压力流场的动态模态分解(DMD)分析,发现翼型层流分离泡的生成和发展为流动主要非定常特征,且该特征具有主要频率.预估得到高增长率T-S扰动波频率与DMD模态频率接近,发现高频变化的分离泡由边界层分离点下游不远处的T-S扰动波诱导K-H不稳定性而主导,以及中低频的DMD模态表现为T-S扰动波所引起的湍流结构.对比不同攻角下的DMD分解结果,发现上表面分离泡会逐渐向前移动,长度变短;而下表面分离泡略微后移,长度变化不大. 相似文献
4.
逆压梯度下层流分离泡转捩的大涡模拟 总被引:7,自引:1,他引:6
本文采用有限体积法,发展了适合复杂几何边界条件的可压缩流动大涡模拟程序,通过对槽道湍流的计算,验证了程序的可靠性。对低雷诺数、逆压梯度环境中的层流分离泡转捩现象进行了数值模拟,分析了其统计特性及大尺度相干结构的演化规律.初步的结果表明:大涡模拟可以很好地处理层流分离泡转捩问题,既能给出满意的统计平均结果,又可以通过相干结构的演化细致描述分离泡转捩的动力学过程。 相似文献
5.
了解预测转捩与层流分离泡,对于低压高负荷叶片设计特别重要.为此,采用大涡模拟方法,对典型高负荷叶栅T106进行了模拟.计算描述了层流分离泡,给出了壁面压力、壁面摩擦力系数的分布,从而准确预测了T106压力面上的层流分离、转捩、湍流再附现象.计算同时刻画了层流分离泡的非定常性质,给出了瞬时压力,进行了频谱分析,确定主频为2500 Hz,并观察到了瞬时涡等有意义的现象.计算同时表明二维大涡模拟计算结果可以复现出湍流的许多重要现象并且精度可以满足工程需要. 相似文献
6.
高超声速流动中, 大攻角下圆锥背风面边界层会存在流动分离与再附、边界层转捩等多种流动现象, 进而对圆锥表面温度分布产生显著的影响。为了对这一复杂流动规律及其对表面温升分布的影响进行讨论, 研究基于温敏漆技术, 得到了在Mach数为6的低湍流度来流条件下, 攻角为10°的圆锥背风面温升分布结果。通过对不同位置、不同方位角处温升分布曲线的分析, 对大攻角下圆锥背风面边界层流动发展过程及不同发展阶段的流动特征进行了讨论。同时, 通过对来流总压的调节, 得到了不同Reynolds数下的圆锥背风面温升分布结果, 总结了Reynolds数对流动的影响规律。研究发现, 高超声速大攻角圆锥背风面边界层流动发展过程中会依次出现层流分离、定常横流涡影响、转捩以及湍流分离与再附等流动特征, 而在不同的Reynolds数下, 各个流动特征产生影响的范围不同, 随着Reynolds数的降低, 层流范围和定常横流涡影响范围均有所增加, 而从观察到横流影响到转捩开始发生的范围基本相同。 相似文献
7.
大攻角气动特性预测与气动建模是新型飞行器提升飞行性能的重要内容.以轴对称导弹简化模型为研究对象,首先采用计算流体力学方法,对70°大攻角状态的非定常气动特性进行数值模拟,计算方法基于RANS的N-S方程,湍流模型采用SA模型,对流场采用有限体积法离散,无黏项采用Roe通量差分分裂格式,黏性项采用中心差分,时间推进采用LU-SGS格式的双时间步法.飞行器运动模式采用强迫振荡的方式,对5种不同振荡频率进行了非定常数值计算,并记录每一内迭代周期最终的气动力和力矩数值.其次,以CFD预测结果作为气动建模的样本,采用动导数模型、多项式模型等传统方法,进行气动建模,并分析其有效性和精度.最后采用神经网络方法对大攻角非定常气动力进行建模,并和动导数模型、多项式模型进行精度对比.结果表明,基于神经网络的人工智能气动建模方法具有较高的精度和适应性.该方法为飞行器大攻角非定常非线性气动建模,大攻角飞行稳定性分析与控制提供理论参考. 相似文献
8.
超/高超声速尾退分离在防热、保形、隐身、多次投放、回收等方面具有明显优势,有望成为高超声速飞行器载荷投放的优选方案。由此面临一类新的多体分离问题:超/高超声速尾退分离问题(aft super/hypersonic ejection separation, ASES)。超/高超声速尾退分离问题本质上是带空腔底部流动与多体分离构成的耦合问题,具有流场结构复杂、气动非定常非线性非对称效应显著的特点。针对超声速尾退分离问题,采用网格测力和轨迹捕获(captive trajectory system, CTS)风洞试验方法探索了尾退分离干扰流场的结构,发现可根据流场结构和舵效变化分为低速-亚声速无激波、高亚声速-跨声速弱激波、超声速激波和准自由流弱干扰4种典型干扰特征,揭示了尾流场影响后不同区域的全弹气动特性和舵效特性以及控制律、攻角、高度和Mach数对分离位移和姿态的影响规律。相关结论将有助于增强对尾退分离问题的认识,对尾退分离技术的工程实践具有参考价值。 相似文献
9.
飞行器再入大气层时的姿态稳定性事关飞行安全, 是气动设计的关键问题之一.文章采用非线性自治动力系统分叉理论, 耦合求解非定常Navier-Stokes方程和俯仰运动方程, 研究了钝体和细长体两类航天飞行器再入过程单自由度俯仰运动失稳问题.研究表明, 航天飞行器再入时, 如果仅有1个配平攻角, 随Mach数降低, 其配平攻角处的俯仰姿态失稳一般对应于Hopf分叉, 并存在亚临界Hopf分叉和超临界Hopf分叉两种失稳形态; 如果再入时随着Mach数的降低, 其配平攻角由1个演化至多个(一般为3个), 其配平攻角处的俯仰姿态失稳形态将更为复杂, 可能发生鞍结点分叉形态的刚性失稳行为;随Mach数的进一步降低, 其俯仰运动还可能进一步发生Hopf分叉和同宿分叉. 相似文献
10.
通过PISO方法求解非定常不可压N-S方程,研究小展弦比反齐默曼机翼在低雷诺数下的流场特征,并分析其对气动特性的影响.结果显示前缘分离涡在反齐默曼机翼上表面形成一对集中涡.分析表明这对集中涡是影响反齐默曼机翼气动特性的主要因素,给机翼提供了较大的非线性升力和较大的失速攻角,前缘涡之间的相互影响使得机翼出现非定常现象和大攻角的非对称现象.与矩形翼相比,反齐默曼机翼有较好的稳定性. 相似文献
11.
In this work, we present a numerical study of the laminar-turbulence transition flow around a symmetrical air-foil at a low Reynolds number in free flow and near the ground surface at different angles of attack. Finite volume method is employed to solve the unsteady Reynolds-averaged Navier–Stokes (RANS) equation. In this way, the Transition SST turbulence model is used for modeling the flow turbulence. Flow around the symmetrical airfoil SD7003 is numerically simulated in free stream and near the ground surface. Our numerical method can detect different aspects of flow such as adverse pressure gradient, laminar separation bubble and laminar to turbulent transition onset and the numerical results are in good agreement with the experimental data. 相似文献
12.
Direct numerical simulations of low Reynolds number flow over airfoils with trailing-edge serrations
Direct numerical simulations (DNS) have been conducted of NACA-0012 with serrated and straight flat-plate trailing-edge extensions using a purposely developed immersed boundary method. For the low Reynolds number airfoil flows accessible by DNS, laminar separation bubbles involving laminar-turbulent transition and turbulent reattachment occurs. Comparing results from simulations with serrated and un-serrated trailing-edge extensions, noise reduction for higher frequencies is shown using power spectra and one-third octave averaged pressure contours. The effect of the trailing-edge serrations on an acoustic feedback loop observed in previous simulations and the subsequent effect on the laminar separation bubble is studied via cross-correlations, probability density functions of skin friction and spanwise wavenumber spectra. The results show that the presence of serrations leads to some spanwise variation of transitional structures in the separated shear layer, but does not significantly affect the overall hydrodynamic field on the airfoil upstream of the serrations. Two reasons for why the hydrodynamic field is not considerably affected by the presence of serrations are suggested. 相似文献
13.
The aeroacoustic sound generated from the flow around two NACA four-digit airfoils is investigated numerically, at relatively low Reynolds numbers that do not prompt boundary-layer transition. By using high-order finite-difference schemes to discretize compressible Navier–Stokes equations, the sound scattered on airfoil surface is directly resolved as an unsteady pressure fluctuation. As the wavelength of an emitted noise is shortened compared to the airfoil chord, the diffraction effect on non-compact chord length appears more noticeable, developing multiple lobes in directivity. The instability mechanism that produces sound sources, or unsteady vortical motions, is quantitatively examined, also by using a linear stability theory. While the evidence of boundary-layer instability waves is captured in the present result, the most amplified frequency in the boundary shear layer does not necessarily agree with the primary frequency of a trailing-edge noise, when wake instability is dominant in laminar flow. This contradicts the observation of other trailing-edge noise studies at higher Reynolds numbers. However, via acoustic disturbances, the boundary-layer instability may become more significant, through the resonance with the wake instability, excited by increasing a base-flow Mach number. Evidence suggests that this would correspond to the onset of an acoustic feedback loop. The wake-flow frequencies derived by an absolute-instability analysis are compared with the frequencies realized in flow simulations, to clarify the effect of an acoustic feedback mechanism, at a low Reynolds number. 相似文献
14.
AbstractThe research discussed the application of planar laser-induced fluorescence technique for visualizing the flow over an airfoil at different Reynolds numbers and angles of attack. The proposed arrangement allows visualizing the development process of the flow field structure around the airfoil. The focus of the study is the influence of the angles of attack and the Reynolds number on the separation boundary layer, which causes the wake vortex or separation bubble. Compared with the traditional visualization technology, the technology of planar laser-induced fluorescence has better time resolution (50?ns) and followability (Reynolds number?=?219,500). In order to achieve high-speed flow field visualization, planar laser-induced fluorescence provides a reliable means of measurement to solve the related engineering problems. 相似文献
15.
在外挂物投放过程中, 载机对外挂物具有气动干扰效应, 产生附加气动力.对于弹性机翼, 在外挂物分离投放时, 相当于给机翼一个初始扰动, 机翼将发生弹性振动, 该振动也会对外挂物带来气动干扰效应.通过耦合求解非定常N-S方程刚体六自由度方程和基于模态法的结构动力学方程, 对考虑弹性变形的载机外挂物分离投放过程进行模拟, 研究了弹性机翼对外挂物的气动干扰效应.研究结果表明:在外挂物分离初期, 弹性机翼的干扰对外挂物气动力响应产生显著影响, 机翼的主要结构模态频率决定了外挂物气动力的变化频率, 并且由载机机翼动弹性变形引起的干扰气动力能占到外挂物总气动力的一半左右. 相似文献