跨音压气机近失速状态的非定常特征

本文采用动态测量技术和非定常流动的分析方法,对高速跨音压气机近失速状态时,动叶顶部非定常流动的演变特征进行了实验研究。从时域、频域和流场特征的角度出发,探讨了旋转失速发生和发展过程中,流动失稳的物理机制．结果表明：远离设计工况时的失速先兆特征与临近设计工况时的先兆特征有着本质的区别。展示了非稳定分离流动与后续旋转失速成因的内在联系．     

带状束高功率微波源宽通带收集极

设计了一种适用于带状电子束高功率微波源的宽通带收集极,在有效吸收束-波相互作用后的带状电子束的同时,保证了带状电子束高功率微波源的工作模式矩形波导TM11模式高效率地通过。研究结果表明：在13~27 GHz范围内,功率传输效率大于95%,这一宽通带特性使得该类型的收集极与带状电子束高功率微波源能够更好配合,显著提高了微波源的模拟优化和实验调试效率;TM11模式微波的传输效率对收集极厚度和长度等参数不敏感;该类型收集极结构具有良好的散热能力,在不加外部水冷装置的条件下,仅靠空气自然对流冷却和辐射冷却,可以承受电流3 kA、电压300 kV、脉冲宽度30 ns及重复频率50 Hz带状电子束的连续冲击。     

应用在线近红外光谱分析复烤前后原烟及片烟的质量特性

应用在2012年"中华"专用分拣复烤生产线中采集的7个产地的复烤前原烟和复烤后片烟的在线近红外光谱为试验资料,通过建立不同产地近红外光谱的投影分析模型,并结合方差及相关分析等,研究烟叶复烤前后的均一性及相似性等品质特征的变化,为客观的掌握烟叶原料质量及卷烟产品配方提供技术支撑。本研究结果表明,从数量庞大的在线近红外光谱中,按等间隔采样时间筛选约1万条左右用于建模分析可行,取样代表性充分;经人工分拣、打叶、复烤后的各产地烟叶近红外光谱的均一性提高幅度可达10%~35%,烟叶品质的均质化程度显著提高;同时复烤后各产地烟叶所体现的相似性关系亦发生了变化,从整体上其相似性显著降低,即由产地体现的风格品质差异显著提升,为优质卷烟的原料配方设计提供了更大空间,体现了我国烟草企业生产优质中式卷烟需要消耗大量财力、人力进行烟叶复烤加工的必要性。传统的化学分析等手段需要花费大量的时间和精力,难以对整个加工环节进行控制,近红外光谱技术以其快速、无损的优势,不仅能够实现待测样品成分含量等的实时检测与质量控制,而且应用生产过程中的大量近红外光谱,可以从多角度进行有关产品品质信息的充分挖掘,是一种在众多行业特别是农产品和食品加工行业中极具应用前景的在线分析检测技术。     

Influence of various shapes of nanoparticles on unsteady stagnation-point flow of Cu-H2O nanofluid on a flat surface in a porous medium: A stability analysis

The nanofluid and porous medium together are able to fulfill the requirement of high cooling rate in many engineering problems. So, here the impact of various shapes of nanoparticles on unsteady stagnation-point flow of Cu-H₂O nanofluid on a flat surface in a porous medium is examined. Moreover, the thermal radiation and viscous dissipation effects are considered. The problem governing partial differential equations are converted into self-similar coupled ordinary differential equations and those are numerically solved by the shooting method. The computed results can reveal many vital findings of practical importance. Firstly, dual solutions exist for decelerating unsteady flow and for accelerating unsteady and steady flows, the solution is unique. The presence of nanoparticles affects the existence of dual solution in decelerating unsteady flow only when the medium of the flow is a porous medium. But different shapes of nanoparticles are not disturbing the dual solution existence range, though it has a considerable impact on thermal conductivity of the mixture. Different shapes of nanoparticles act differently to enhance the heat transfer characteristics of the base fluid, i.e., the water here. On the other hand, the existence range of dual solutions becomes wider for a larger permeability parameter related to the porous medium. Regarding the cooling rate of the heated surface, it rises with the permeability parameter, shape factor (related to various shapes of Cu-nanoparticles), and radiation parameter. The surface drag force becomes stronger with the permeability parameter. Also, with growing values of nanoparticle volume fraction, the boundary layer thickness (BLT) increases and the thermal BLT becomes thicker with larger values of shape factor. For decelerating unsteady flow, the nanofluid velocity rises with permeability parameter in the case of upper branch solution and an opposite trend for the lower branch is witnessed. The thermal BLT is thicker with radiation parameter. Due to the existence of dual solutions, a linear stability analysis is made and it is concluded that the upper branch and unique solutions are stable solutions.     

Mechanical Properties of Ni-Coated Single Graphene Sheet and Their Embedded Aluminum Matrix Composites

The effects of Ni coating on the mechanical behaviors of single graphene sheet and their embedded Al matrix composites under axial tensionare investigated using molecular dynamics (MD) simulation method. Theresults show that the Young's moduli and tensile strength of grapheneobviously decrease after Ni coating. The results also show that the mechanical properties of Al matrix can be obviously increased by embedding asingle graphene sheet. From the simulation, we also find that the Young'smodulus and tensile strength of the Ni-coated graphene/Al composite isobviously larger than those of the uncoated graphene/Al composite. Theincreased magnitude of the Young's modulus and tensile strength ofgraphene/Al composite are 52.27 and 32.32 at 0.01 K, respectively,due to Ni coating. By exploring the effects of temperature on the mechanicalproperties of single graphene sheet and their embedded Al matrix composites, it is found that the higher temperature leads to the lower critical strain and tensile strength.     

处于部分进汽时动叶片排内非定常流动现象的数值研究

本文在简要回顾了迄今为止对于工作在部分进汽状态下叶片特性的实验和理论研究结果之后,采用作者发展的多通道三维叶片非定常计算程序,对处于部分进汽时动叶片排内的三维流动进行了数值模拟,并对计算结果进行了分析。     

高精度高分辨率迎风格式应用于不同速度范围内粘性流动

提出了一种适合于不同速度范围的高精度高分辨率的迎风有限差分格式，并基于此数植模型发展了适应于速度范围极宽的非定常粘性流动通用软件，不仅适用于超音速下捕捉强间断面，跨音速及高亚音速下捕捉弱间断面和滑移面，还可以精确地模拟低速情况下的粘性流动。此软件可分别用于研究内流和外流的流动特性以及预估其粘性损失。     

物料在多层流化床内非稳态干燥的实验研究

通过石英砂与绿豆在多层流化床内的非稳态干燥特性实验，得出与稳态干燥的重要区别即为没有稳定的值速干燥段。将Page方程修正后，可用于多层流化床非稳态干燥数据处理。推导出的非稳态干燥动力学方程证明在非稳态干燥时，不可能出现恒速干燥段，并表明变工况与快速高强度干燥是提高干燥速率的重要途径。     

亚乙基硫脲分子键伸缩模式与全耦合模式键极化率的对比及其拉曼激发虚态的相关研究

从拉曼峰强着手,得到了键伸缩模式与全耦合模式两种不同计算条件下,亚乙基硫脲(ethylene thiourea,ETU)分子的键极化率,并比较分析了两种计算结果的异同.研究表明:在键伸缩模式的算法中,仅考虑势能分布中键对称伸缩比重相对较大的部分拉曼峰参与极化率计算,显然忽略了键伸缩与键弯曲间的相互耦合,造成了与弯曲振动耦合较强的部分键伸缩极化率值存在一定误差.因此,此方法虽能使问题简化,但却丢失了一些信息.而全耦合模式算法考虑了所有振动模式(键伸缩与键弯曲)相互影响的情况,能更全面的反映键电荷的分布情况,但却会使问题的求解过程变得复杂.同时,在拉曼激发虚态的相关研究中,两种计算方法却得到几乎一致的键极化率弛豫方式(呈单指数规律衰减)及相同的衰减特征时间.