基于离散元的粉末燃料输送弯管两相流特性研究

弯管是粉末燃料冲压发动机燃料输送系统的重要组成部分,为了研究弯管内气固两相流的流场结构、颗粒碰撞以及压力损失的变化规律,基于连续相-离散元(CFD-DEM)耦合模型,考虑颗粒的碰撞受力和弹塑性形变,对铝粉在弯管内的流动状况进行数值仿真.研究结果表明:CFD-DEM算法相对于传统的双流体模型和轨道法,能更为准确地描述颗粒...     

空间等离子体压力各向异性对磁场重联的影响

基于二维时变可压缩磁流体动力学模拟,数值研究了等离子体压力各向异性对磁场重联的影响,发现一个小的压力各向异性(P_⊥=1.02P_//)即可大大加速磁场重联的发展,这可能是由于磁镜不稳定性与撕裂模不稳定性共同起作用.在P_⊥P_//的情况下,撕裂模受到抑制,电流片中不能形成大型磁岛.     

旋转盘腔轴向通流的压降和温升数值研究

为获得旋转雷诺数对盘腔轴向通流温升和压降的影响,对轴向通流雷诺数Rex恒定为1.0×105,旋转雷诺数Reω=0～5.31×106、绝热边界下的流动进行了数值模拟,从流场特征、盘面绝热温升以及轴向通流压降和温升等三个方面进行了分析.研究表明,旋转雷诺数对于盘腔内部和轴向通流的流动均具有显著影响;尽管是绝热盘面,但是由于...     

Thermal stability improvement of sprayable fast-responding pressure-sensitive paint for measurement above 100 °C

The thermal stability of sprayable fast-responding Pressure-Sensitive Paint (fast PSP) was investigated to explore the possibility for application in turbomachinery and hypersonic research with temperature above 100 °C. The first part of the study focused on a widely-used Polymer Ceramic PSP (PC-PSP). The effects of thermal degradation on its key sensing properties, including luminescent intensity, pressure sensitivity and response time, were examined for a temperature range from 60 to 100 °C. Severe degradation in intensity and pressure sensitivity was found as temperature reached 70 °C or higher, which would cause failure of PSP application in these conditions. Subsequently, a fast-responding Mesoporous-Particle PSP (MP-PSP) was developed which did not show degradation effects until 140 °C. The greatly improved thermal stability of MP-PSP was attributed to: selection of polymer with higher glass transition temperature (polystyrene) to delay the saturation effect of oxygen quenching as temperature increased; porous and hollow structure of particles for luminophore deposition that minimizes polymer–luminophore interaction. This new paint formulation has significantly raised the upper temperature limit of fast PSP and offers more opportunities for applications in harsh environment.     

基于压力信号器控制的贮箱地面增压技术应用分析

对基于压力信号器控制的贮箱地面增压技术及其在发射场的实际应用情况进行了介绍分析。常温贮箱射前地面增压时间较为宽裕，一般采用单气路单压力信号器控制增压；低温贮箱射前地面增压时间较短，要求较快的增压速率，一般采用双气路双压力信号器控制增压。贮箱射前地面增压存在压力后效，影响压力后效大小的主要因素包括：增压充气流量qm、增压电磁阀动作响应时间Δt、增压电磁阀后供气管路气体容积Vg。发射场实际应用过程中，通过调整供气管路上节流孔板大小控制增压充气流量，使贮箱增压压力后效满足要求。针对压力信号器失效故障模式，通过设置紧急放气电磁阀和冗余设计,实现紧急放气和冗余备保增压，可以确保贮箱射前增压工作正常。     

Experimental investigation of characteristics of instability evolution in a centrifugal compressor

The stable range of operation for the centrifugal compressor significantly influences the dynamic, economic, and environment-friendly characteristics of power systems. A deep understanding of the characteristics of instability evolution is necessary to improve the compressor stability. A centrifugal compressor equipped with a vaneless diffuser is experimentally investigated using highresponse static-pressure measurements. The results obtained indicate that three typical rotationalspeed ranges ex...     

基于EFPI-FBG结构的光纤复合传感器研究

研究了一种基于非本征型Fabry-Perot干涉仪(EFPI)和光纤Bragg光栅(FBG)串联结构构成的EFPI-FBG光纤复合传感器,用于实现对压力和温度信号的同步测量。传感器选用熔融石英作为压力敏感材料,利用飞秒激光焊接技术实现传感器探头结构的封装。对传感器的工作原理进行了分析,制作并封装传感器工程样机,搭建测试系统,对传感器的性能进行了灵敏度及交叉敏感性分析。结果表明,该传感器在0.8 MPa范围内的灵敏度约为-0.729μm/MPa,在50℃~200℃范围的温度灵敏度为0.009 nm/℃,传感器压力测量最大允许误差为±4.12%FS。该EFPI-FBG复合传感器有望应用于压力—温度双参数测量需求的技术领域。     

Minimizing airfoil drag at low angles of attack with DBD-based turbulent drag reduction methods

Dielectric Barrier Discharge (DBD) based turbulent drag reduction methods are used to reduce the total drag on a NACA 0012 airfoil at low angels of attack. The interaction of DBD with turbulent boundary layer was investigated, based on which the drag reduction experiments were conducted. The results show that unidirectional steady discharge is more effective than oscillating discharge in terms of drag reduction, while steady impinging discharge fails to finish the mission (i.e. drag increase). In the best scenario, a maximum relative drag reduction as high as 64 % is achieved at the freestream velocity of 5 m/s, and a drag reduction of 13.7 % keeps existing at the freestream velocity of 20 m/s. For unidirectional discharge, the jet velocity ratio and the dimensionless actuator spacing are the two key parameters affecting the effectiveness. The drag reduction magnitude varies inversely with the dimensionless spacing, and a threshold value of the dimensionless actuator spacing of 540 (approximately five times of the low-speed streak spacing) exists, above which the drag increases. When the jet velocity ratio smaller than 0.05, marginal drag variation is observed. In contrast, when the jet velocity ratio larger than 0.05, the experimental data bifurcates, one into the drag increase zone and the other into the drag reduction zone, depending on the value of dimensionless actuator spacing. In both zones, the drag variation magnitude increases with the jet velocity ratio. The total drag reduction can be divided into the reduction in pressure drag and turbulent friction drag, as well as the increase in friction drag brought by transition promotion. The reduction in turbulent friction drag plays an important role in the total drag reduction.     

旋转爆轰波与涡轮平面叶栅相互作用数值模拟

由于旋转爆轰燃烧室具有自增压特性，可提高热力循环效率，因此将旋转爆轰燃烧室应用于燃气轮机可进一步提高系统的性能。基于非稳态雷诺时均Navier-Stokes方法，采用剪切应力输运k-ω湍流模型，建立旋转爆轰燃烧室与涡轮平面叶栅耦合计算模型，研究旋转爆轰燃烧室内的复杂波系与涡轮叶片的相互作用，分析涡轮叶栅对高频爆轰压力振荡的抑制作用。结果表明：旋转爆轰燃烧室内的燃气在涡轮叶栅内加速，并且在斜激波后的局部区域马赫数的增加更为明显。斜激波与涡轮静转子叶片的前缘、压力面、吸力面以及尾缘相互作用，由于旋转爆轰波不同的传播方向，使得斜激波与静子叶片呈相互垂直或平行，进而形成两种不同的波系结构。涡轮叶栅对高频压力振荡存在明显的抑制作用，涡轮叶栅上下游高频压力振荡幅值的衰减率达到80%以上。研究结果展示了旋转爆轰波作用下涡轮叶栅内复杂波系结构特征，并对基于爆轰燃烧推进技术的应用提供了一定的理论基础。     

无强波构型理论发展现状研究

本文引入了一种由Busemann超声速双翼理论发展而来的无强激波构型,该构型可明显消弱超声速飞行时带来的波阻和声爆。文中分析了无强波构型的机理和气动特性,介绍了该构型理论研究和应用研究进展,并探讨了该构型在超声速飞行器设计应用中的关键性问题。该理论为未来低声爆超声速飞机的设计提供了一个全新的思路,是未来超声速/高超声速飞行器发展必要的技术基础。