跨声速涡轮静子端壁气膜冷却数值研究

对跨声速涡轮静子端壁气膜冷却进行了数值研究。研究发现涡轮静子端壁存在几个强换热区域：叶片前缘马蹄涡及前缘马蹄涡区域、吸力面马蹄涡分支覆盖区域、通道中靠近压力面侧和尾缘附近及尾缘后区域。针对端壁区域复杂的换热分布,设计了1种新型端壁全气膜冷却布置。通过数值研究对比了在不同进口吹风比情况下的壁面Nu、壁面气膜冷却效果和壁面热负荷。结果表明：存在最佳的进口吹风比,即在前缘Minlet=1.0时,尾缘Minlet=4.0时,端壁区域冷却效果最好。     

边界形状影响等离子体射流扩展特性的实验研究

为了探索燃烧室边界形状在控制燃烧稳定性方面的特性,设计了圆柱型和圆柱渐扩型充液室,运用高速录像系统研究了等离子体射流在充液室中的扩展过程。结果表明：等离子体射流在液体工质中扩展时,等离子体一液体两相流体速度差较大,TaylorHelmh01tz不稳定效应强烈,圆柱型充液室中,Taylor空腔界面自由,界面增长随机脉动性较大;渐扩型充液室能够使两相流边界受到约束,使Taylor空腔沿着充液室边界逐级扩展,从而减弱了Taylor-Helmholtz不稳定效应,有效抑制了界面增长的随机脉动性。放电电压、喷嘴直径和渐扩结构因子△D／L对Taylor空腔扩展过程均有不同程度的影响,通过对这些参数的优化匹配,可以在一定程度上实现对射流扩展过程的控制。     

横向射流起爆爆震波数值研究

采用CFD软件对横向喷射的射流在预先充满丙烷/空气恰当比混合物的爆震室中起爆爆震波的过程和机理进行了数值模拟,并讨论了射流的压力、速度以及温度对爆震波起爆特性的影响.结果表明,对于计算的物理模型,爆震射流不能在爆震室中直接起爆爆震波;射流与壁面的碰撞形成激波反射,激波反射产生的横渡、热点和局部爆震引发起爆;能够成功起爆爆震波的横向射流存在最小的射流压力,该射流压力为0.9MPa;较小的射流压力、较小的射流速度或较低的射流温度都不利于横向射流在爆震室中起爆爆震波.     

MT1涡轮导叶边界层拟序结构分析

采用自主开发的大涡模拟程序NUL-TURBO,对MT1高压涡轮导叶的跨声速流场进行了数值模拟。在对半叶高位置叶片表面等熵马赫数分布实验数据对比验证的基础上,研究了有无气膜冷却两种情况下叶片表面流场的拟序结构。结果表明:无气膜射流时,叶片吸力面近尾缘位置存在分离转捩过程,并在此过程中发现了发卡涡"森林"现象;有气膜射流时,射流出口位置叶片表面边界层直接转捩为湍流,并发现了叶片压力面逆转捩过程中存在的涡拉伸形态。     

Investigation of thermal protection system by forward-facing cavity and opposing jet combinatorial configuration

 This paper focuses on the usage of the forward-facing cavity and opposing jet combinatorial configuration as the thermal protection system (TPS) for hypersonic vehicles. A hemispherecone nose-tip with the combinatorial configuration is investigated numerically in hypersonic free stream. Some numerical results are validated by experiments. The flow field parameters, aerodynamic force and surface heat flux distribution are obtained. The influence of the opposing jet stagnation pressure on cooling efficiency of the combinatorial TPS is discussed. The detailed numerical results show that the aerodynamic heating is reduced remarkably by the combinatorial system. The recirculation region plays a pivotal role for the reduction of heat flux. The larger the stagnation pressure of opposing jet is, the more the heating reduction is. This kind of combinatorial system is suitable to be the TPS for the high-speed vehicles which need long-range and long time flight.     

利用射流泵输送油水两相管流的实验研究

研究了应用射流泵输送油水两相管流时泵对下游管道中流型和压降的影响。实验管线为内径50mm的透明有机玻璃管，管线从入口到分离器长约35m，实验段由一个垂直倒U型管和一个长3m水平管组成。分别给出了不同入口条件下实验管段的流型图和压降图。结果表明：采用射流泵输送油水两相流动，对下游管道流型和油水乳化速度有着显著的影响，但对下游管道内的压降随混合流速和体积份额的变化趋势影响很小。     

应用激光相位-多普勒系统测量雾化液滴颗粒和流动特性

在几何光学近似理论的基础上分析了相位多普勒方法的理论模型和相位 粒径特性关系 ,分析了实验应用的光纤型激光相位多普勒系统的原理和组成 ,并应用此系统对雾化喷嘴的流动和颗粒特性进行了测量 ,得到了液滴的二维速度与粒径的相关和统计特性。     

Comparison of magnetic flux tube and cosmic string behavior in Kerr metric

Cosmic strings are topological defects which were generated at a transition phase of the very early Universe and are probably responsible for large-scale structure forming. However, they may pull through all history and exist in the recent epoch. Thus, they can have influence for the recent Universe interacting with different objects. We consider the cosmic string behavior in the vicinity of a spinning black hole by means of a numerical simulation. Here we present preliminary results of this work via a comparison of cosmic string and magnetic flux tube behavior in the Kerr metric. Such an approach follows from the similarity of the equations which describe these objects. Therefore, many aspects of this behavior may be comparable.     

Numerical investigation of co-flow jet airfoil with parabolic flap

Both the Active Flow Control (AFC) and the variable-camber technology are considered as efficient ways to enhance the aerodynamic performance of an aircraft. The present study investigated the feasibility of the combination of a Co-Flow Jet (CFJ) airfoil and a parabolic flap, where the Reynolds Average Navier-Stokes (RANS) equations and the Spalart-Allmaras (S-A) turbulence model were exploited for the numerical simulation. Several significant geometric parameters, including the injection slot location, the suction slot location, the injection slot angle, the suction slot angle and the airfoil Suction Surface Translation (SST), were selected to study their effects on the aerodynamics of the proposed configuration. Then, an optimized design was created and compared with the baseline airfoil. The results show that the CFJ airfoil combined with the parabolic flap is more beneficial to the aerodynamic performance enhancement at small angles of attack. It is preferable to locate the injection slot at a 2% chord-wise location and the suction slot at a 75% chord-wise location. Both the decrease of the injection slot angle and the augmentation of the suction slot angle could reduce the drag. Furthermore, the SST of 0.5% chord is selected due to its high gain in the corrected aerodynamic efficiency at small angles of attack. Compared with the baseline, the optimized design could increase the lift coefficient and the corrected lift-to-drag ratio by 32.1% and 93.8% respectively at the angle of attack α = 4°.     

双S弯喷管的流固耦合特性研究

为了明晰S弯喷管的流固耦合特性,数值模拟了流固耦合作用下双S弯收敛喷管的结构变形特征及其内/外流特性。结果表明：S弯喷管的圆转方弯曲构型产生了非均匀的流场分布,并增强了结构的弹性特征,它们通过交换气动载荷与变形位移数据形成了S弯喷管流固耦合的作用机理。在气动载荷作用下,S弯喷管沿Y向的最大变形位移为25.3mm,它位于喷管出口上壁面的中心位置。当喷管的结构变形稳定时,第二弯转弯处下壁面的气流加速至局部超音速,壁面静压大幅降低;第一弯下游上壁面附近形成了气流分离区;喷管出口喷流沿轴向向上偏转。流固耦合作用导致S弯喷管的流量系数减小0.6%,推力系数降低1.8%。矩形截面与弯曲构型是影响S弯喷管流固耦合特性的主要几何特征,其中矩形截面能够显著增大喷管的变形位移;S形弯曲构型虽然能够有效抑制变形特征,但它导致喷管多个区域出现变形,喷管的结构变形分布变得更加复杂。