单层及双层板的超高速碰撞试验(速度超过10km/s)的数值模拟

文章介绍了在Sandia国家实验室所进行的3个精确控制的超高速碰撞试验,使用两种复杂的流体码即多维流体动力学代码CTH和平滑粒子流体动力学代码SPH,对该试验进行数值模拟。该试验用质量为克大小的飞片及球形射弹以大约10km/s的速度撞击薄铝板及钢板(厚度小于1cm)。并分析了碎片云动力学计算预示结果及这些试验中金属板的损坏。     

逆主流射流式旋涡发生器对涡轮流动分离控制数值模拟

通过数值计算,详细研究了射流偏转角与主流夹角大于90°的逆主流小孔稳态射流(Reversed in jectionVG Js)对低雷诺数涡轮流动分离的控制。研究结果发现,逆主流射流对主流的扰动引起射流孔后边界层迅速转捩可抑制流动分离现象。射流作为"湍流发生器"从控制机理上有别于90°偏转角VG Js射流状态。高射流湍流度(10%),135°逆主流VG Js在达到与90°偏转角VG Js基本相同的流动分离控制效果时,可降低射流流量67%。     

LES of film cooling for different jet fluids

The present paper investigates the impact of the velocity and density ratio on the turbulent mixing process in gas turbine blade film cooling.A cooling fluid is injected from an inclined pipe at α=30° into a turbulent boundary layer profile at a freestream Reynolds number of Re∞=400000.This jet-in-a-crossflow(JICF) problem is investigated using large-eddy simulations(LES).The governing equations comprise the Navier-Stokes equations plus additional transport equations for several species to simulate a non-reacting gas mixture.A variation of the density ratio is simulated by the heat-mass transfer analogy,i.e.,gases of different density are effused into an an air crossflow at a constant temperature.An efficient large-eddy simulation method for low subsonic flows based on an implicit dual time-stepping scheme combined with low Mach number preconditioning is applied.The numerical results and experimental velocity data measured using two-component particle-image velocimetry (PIV) are in excellent agreement.The results show the dynamics of the flow field in the vicinity of the jet hole,i.e.,the recirculation region and the inclination of the shear layers,to be mainly determined by the velocity ratio.However,evaluating the cooling efficiency downstream of the jet hole the mass flux ratio proves to be the dominant similarity parameter,i.e.,the density ratio between the fluids and the velocity ratio have to be considered.      

壁面展向匀速运动的槽道湍流的直接数值模拟

为了解展向存在匀速流动时湍流槽道流动的特性,应用直接数值模拟方法研究了壁面的展向运动对湍流槽道流动的影响.采用标准谱方法对固定质量流率条件下,上壁面展向运动速度分别等于零、流向流量平均速度以及两倍于流向流量平均速度等3种情况进行了直接数值模拟.结果表明,壁面的展向运动会导致表面摩擦力的增大,二阶湍流统计量诸如均方根速度脉动、雷诺剪切应力和均方根涡量脉动等都会随着壁面展向运动速度的增大而显著增长,同时,槽道截面上的均方根速度脉动也变得更均匀.      

微小卫星姿态控制系统半物理仿真设计及验证

针对利用反作用飞轮作为执行机构的微小卫星姿态控制系统,详细讨论了基于dSPACE实时仿真机、单轴气浮转台、星载计算机及陀螺和反作用飞轮实物的卫星姿态控制系统半物理仿真的方案设计;并利用该系统对仅用反作用飞轮的卫星姿态大角度机动控制模式进行了半物理仿真验证。仿真结果表明根据陀螺和反作用飞轮现有精度,设计的大角度姿态机动控制算法能够满足分系统技术要求,同时验证了半物理仿真系统方案设计合理、可靠。     

流向入射涡与后翼相互作用分析

涡翼互作用现象影响航空运输编队飞行的效益和配对进近的安全。采用数值模拟方法,针对无入射涡影响的后翼以及稳定状态下的入射涡位于后翼3个典型展向位置共4种情况,研究入射涡与后翼的相互作用。对比分析了基于Q准则的三维涡量、不同流向位置的涡量,以及后翼吸力面静压系数、气动参数和滚转力矩系数等。研究结果表明:稳定状态下的入射涡在后翼外侧时,翼尖涡受上洗运动影响;在内侧时,受下洗运动影响。两种情况下,翼尖涡强度均受到抑制。入射涡越靠近后翼翼尖,后翼升力系数、升阻比、滚转力矩系数越大,且在其与后翼翼尖重合时都达到最大值。这一结果可为编队飞行和配对进近的前后机布局提供参考。     

固体发动机含表面裂纹的端面燃烧药柱工作过程仿真研究

采用燃烧室零维动力学模型，对模拟发动机正常工作过程和含不同尺寸裂纹的工作过程进行了仿真计算和比较研究，得到了裂纹尺寸对工作过程影响的初步结论，为今后的实验研究工作做了先期准备。     

FIR滤波器在导引头系统半实物仿真中的应用

为抑制导引头所受的多路径干扰，对有限长单位脉冲响应(FIR)滤波器的应用进行了理论分析，并给出了一个FIR滤波器的设计实例。导引头系统半实物仿真实验表明，实验结果与设计要求基本吻合。     

Scramjet整机流场的非结构网格并行数值模拟

为了得到某支板喷氢超燃冲压发动机内流场的细节,采用非结构网格CFD隐式解算器,耦合求解Na-vire-Stokes方程、组分连续方程和M enter的k-ω应力剪切传输(SST)湍流模型,对整机模型的冷流和三个当量油气比的湍流反应流进行了三维并行模拟。给出了流线和水的分布云图,分析了支板附近旋涡和推进流道一维质量加权平均的马赫数、静温、组分质量分数及燃烧效率等参数随当量油气比的变化,并将壁面压力和实验值进行了比较,吻合较好。除=0.8在支板附近出现了小范围亚声速外,其余状态整个内流道超声速占主流。     

Cellular communication and “non-targeted effects”: Modelling approaches

During the last decade, a large number of experimental studies on the so-called “non-targeted effects”, in particular bystander effects, outlined that cellular communication plays a significant role in the pathways leading to radiobiological damage. Although it is known that two main types of cellular communication (i.e. via gap junctions and/or molecular messengers diffusing in the extra-cellular environment, such as cytokines, NO etc.) play a major role, it is of utmost importance to better understand the underlying mechanisms, and how such mechanisms can be modulated by ionizing radiation. Though the “final” goal is of course to elucidate the in vivo scenario, in the meanwhile also in vitro studies can provide useful insights. In the present paper we will discuss key issues on the mechanisms underlying non-targeted effects and cell communication, for which theoretical models and simulation codes can be of great help. In this framework, we will present in detail three literature models, as well as an approach under development at the University of Pavia. More specifically, we will first focus on a version of the “State-Vector Model” including bystander-induced apoptosis of initiated cells, which was successfully fitted to in vitro data on neoplastic transformation supporting the hypothesis of a protective bystander effect mediated by apoptosis. The second analyzed model, focusing on the kinetics of bystander effects in 3D tissues, was successfully fitted to data on bystander damage in an artificial 3D skin system, indicating a signal range of the order of 0.7–1 mm. A third model for bystander effect, taking into account of spatial location, cell killing and repopulation, showed dose–response curves increasing approximately linearly at low dose rates but quickly flattening out for higher dose rates, also predicting an effect augmentation following dose fractionation. Concerning the Pavia approach, which can model the release, diffusion and depletion/degradation of candidate signals (e.g. cytokines) travelling in the extra-cellular environment, the good agreement with ad hoc experimental data obtained in our laboratory validated the adopted approach, which in the future can be applied also to other candidate signals.