时间推进法求解离心泵内部不可压流场

本文使用时间推进法求解离心泵内部不可压缩流的紊流时均Reynolds方程。选用Boldwin-Lomax双层代数紊流模型,对流项采用中心差分格式离散,时间推进项选用四阶显式Runge-Kutta求解方法。对离心泵在0.4、1.0、1.5倍的设计工况点进行了数值计算。计算所得到的流量扬程点与实验值相吻合,在小流量工况点效率吻合很好,在设计工况和大流量工况点效率偏高,文中讨论了叶轮出口压力分布、蜗壳外壁面上的静压分布及载荷随叶轮半径的变化规律。     

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采用焓探针对大气压力下热喷涂等离子体射流的焓和温度进行了测量和计算,研究了氩气流量变化、电流变化和喷涂距离对等离子射流的焓和温度分布的影响。结果表明,氩气流量不变的情况下,随着功率的增加等离子体的焓值和温度增加;电流保持不变时,随着氩气流量的增加等离子体的焓值和温度不断减小,随着距离喷嘴出口轴向距离的增加,等离子体的焓值和温度都大幅度的降低;氩气流量变化对喷枪热效率影响不大,功率增大时,喷枪热效率增加显著,喷枪热效率最高可达到60%。     

螺旋管内气液固三相流颗粒相分布规律

为了深入认识螺旋管多相流相分离现象,并为新型螺旋管除砂器设计提供指导,本文应用马尔文粒度仪,测量了螺旋管气水砂三相流底部水平段液膜中的颗粒浓度和粒度分布。研究表明:在泡状流和分层流条件下,螺旋管底部水平段可形成稳定的连续液膜流动;在宽广的气速范围内,液膜中的颗粒浓度分布规律均为内弯侧较低、外弯侧较高,说明螺旋管除砂器对于实际生产中流动工况的变化具有良好的适应性;泡状流中提高气速有利于分离;分层流中在中等气速条件下外弯侧颗粒浓度最大,中等气速是相分离的最佳操作工况。     

Flat plate film cooling from a single-row inclined holes embedded in a trench: effect of external turbulence and flow acceleration

Results of an experimental study of a flat plate film cooling efficiency from a single row of inclined holes embedded in a “shallow” trench are presented. It is shown the cooling efficiency of such a configuration is much greater than that of the traditional configuration of inclined round holes. This provides more uniform surface coverage by the coolant film. The flow external turbulence increases the film cooling efficiency by 5–8%, while the freestream flow acceleration reduces it by 10–15%.     

叶轮顶部间隙对向心透平总体性能影响的研究

对微型燃机向心透平叶轮顶部间隙流动在级环境下进行了全三维粘性数值模拟．研究结果表明:顶部间隙小于 2％时,间隙每增加1％,级效率降低1．5％,而级通流能力有所降低;径向与轴向间隙变化对级性能影响有很大差别, 径向间隙增加对级效率降低的影响是轴向间隙增加的8．3倍,径向间隙增加使通流能力增强的程度是轴向间隙增加使通流能力减弱的4．2倍。此外,将间隙流场与文献报道试验结果进行了比较,差别主要在工作轮顶部区域。     

Study of the performance of a thermoelectric generator transformation of the thermal energy conveyed by a heat transfer fluid into electrical energy

A mathematical model to predict the maximum energy conversion efficiency of the thermoelectric generator is developed to improve the performance and maximize the energy conversion efficiency of the thermoelectric power generator. The studied device corresponds to an original configuration of thermoelectric modules mounted on the peripheral surfaces of two channels, one of the channels is crossed by hot fluid and the other by a cold fluid. First, the effect of the flow rate was studied to choose the flow rate adapted to our study for three different configurations of the thermopile, the co-current configuration, the counter-current configuration, and the sandwich configuration. Then a comparison was made to choose the best configuration between these three studied configurations by addressing their thermoelectric performances. The results revealed that the sandwich configuration is much better than the co-current and counter-current configurations and reduces the surface area occupied by the TEG by half while generating more power than a solar panel.     

轴向间隙对压气机时序效应影响之一：总性能

本文实验研究了在不同动、静叶间轴向间隙下静叶时序效应对某低速轴流压气机气动性能的影响.结果表明,相同轴向间隙下,时序效应对效率的影响随流量增加而增强,但对压比基本没有影响;在不同轴向间隙下,设计工况效率在67%轴向间隙时最大,33%间隙时最小,且最高、最低效率的静叶时序位置有所不同.综合变轴向间隙和时序位置的影响,压气机设计工况效率最大可提高1.0%,最大流量工况处可提高2.3%.但是随着轴向间隙的减小,压气机喘振裕度有所下降.     

The Efficiency of Molecular Motors

Molecular motors convert chemical energy into mechanical work while operating in an environment dominated by Brownian motion. The aim of this paper is to explore the flow of energy between the molecular motors and its surroundings, in particular, its efficiency. Based on the Fokker-Planck equation with either N or infinite chemical states, we find that the energy efficiency of molecular motors, whether the Stokes efficiency or the usual thermodynamic efficiency, is strictly less than one, because of the dissipation of the energy in both the overdamped surroundings and in the process of the chemical reaction.     

弯曲静叶时序效应对压气机性能的影响

本文实验研究了弯曲静叶栅时序效应对某低速轴流压气机性能影响.结果表明,两列静叶时序位置不同导致压气机效率发生显著变化,且变化幅度随流量增加而加大;设计点处,时序位置为4/18和12/18相对节距时具有最低、最高压气机效率,差值约为0.6%;最大流量处,时序位置为O/18和8/18时效率差值约为2.7%.出口流场测量显示,上游静叶尾迹被输运到下游叶列流道中不同周向位置并与该列叶栅不同区域低能流体的掺混是导致压气机性能随静叶时序位置不同而变化的主要原因.     

数字散斑相关方法亚像素求解的一种混合方法

亚像素求解是数字散斑相关方法(DSCM)中最重要的技术。亚像素求解算法的精度和效率直接影响DSCM的精度和计算速度。目前广泛应用的两种亚像素求解方法在处理高质量散斑图时都存在一定的缺陷:基于灰度插值的散斑场亚像素恢复方法,其计算精度较高,但计算消耗太大;基于相关系数分布的拟合方法,其计算消耗小,但计算精度较低。在分析两种亚像素求解方法各自优缺点的基础上,提出了一种结合两种算法优势的混合算法。混合算法在保证亚像素求解精度的基础上,可以大大降低整个算法的计算消耗。     

旋转气固两相流动与分离数值模拟

针对旋转气固两相流分离及其应用问题,研究旋转气固两相流中尘粒的运动特性及分离效率,提出了分离效率的计算式.考虑尘粒间碰撞与并聚、喷水对尘粒间碰撞与并聚的影响,数值模拟研究旋转分离器内气固两相流场、尘粒运动特性及分离效率.研究结果表明分离器结构对流场和压力场有显著影响,且尘粒并聚有利于提高分离效率.     

Analyses of the endoreversible Carnot cycle with entropy theory and entransy theory

The endoreversible Carnot cycle is analyzed based on the concepts of entropy generation, entropy generation number, entransy loss, and entransy loss coefficient. The relationships of the cycle output power and heat-work conversion efficiency with these parameters are discussed. For the numerical examples discussed, the preconditions of the application for these concepts are derived. When the inlet temperatures and heat capacity flow rates of hot streams and environment temperature are prescribed, the results show that the concepts of entropy generation and entransy loss are applicable. However, in the presence of various inlet temperatures of streams, larger entransy loss rate still leads to larger output power, while smaller entropy generation rate does not. When the heat capacity flow rates of hot streams are various, neither larger entransy loss rate nor smaller entropy generation rate always leads to larger output power. Larger entransy loss coefficient always leads to larger heat-work conversion efficiency for the cases discussed, while smaller entropy generation number does not always.     

基于离散伴随方法的透平叶栅气动优化设计

本文研究并给出了基于离散伴随理论和自动微分技术构建离散伴随系统的方法、伴随系统的求解策略以及基于离散伴随方法的透平叶栅气动优化设计流程,建立了相应的优化设计系统。利用该优化系统在无黏环境下,以叶栅通道进出口的熵增率为目标函数、以叶栅通道内的质量流量为约束,对某二维跨音速透平叶栅进行了气动优化设计。与优化前相比,优化后透平叶栅进出口熵增率减少8.82%,质量流量变化幅度小于0.003%。优化结果表明,本文提出的优化系统能够有效改善透平叶栅的气动优化性能,验证了本文提出的基于离散伴随方法的透平叶栅气动优化设计方法的正确性与有效性。     

新型涡流管的制冷特性研究

以新型涡流管为研究主体,通过实验,研究涡流管操作参数对涡流管性能的影响。根据实验数据,分析改变温度压力等操作参数对涡流管能量分离效应的影响。试验结果表明:当提高涡流管进气温度,其冷热两端出气温度升高,但并不影响涡流管的制冷效率;增加涡流管进气压力会提高涡流管制冷效应,并在冷流率为0.2时效果最明显;制冷效率随节流阀开度增加而增加且最终趋于稳定,而制热效率则随节流阀开度增加而减小并最终趋于稳定。     

A nonlinear POD reduced order model for limit cycle oscillation prediction

As the amplitude of the unsteady flow oscillation is large or large changes occur in the mean background flow such as limit cycle oscillation,the traditional proper orthogonal decomposition reduced order model based on linearized time or frequency domain small disturbance solvers can not capture the main nonlinear features.A new nonlinear reduced order model based on the dynamically nonlinear flow equation was investigated.The nonlinear second order snapshot equation in the time domain for proper orthogonal decomposition basis construction was obtained from the Taylor series expansion of the flow solver.The NLR 7301 airfoil configuration and Goland+ wing/store aeroelastic model were used to validate the capability and efficiency of the new nonlinear reduced order model.The simulation results indicate that the proposed new reduced order model can capture the limit cycle oscillation of aeroelastic system very well,while the traditional proper orthogonal decomposition reduced order model will lose effectiveness.     

A particle trapping chip using the wide and uniform slit formed by a deformable membrane with air bubble plugs

We present a high-efficient particle trapping chip, where a wide and uniform slit is formed by a deformable membrane barrier with air bubble plugs. The previous particle trapping methods based on membrane barriers resulted in low trapping efficiency due to the non-uniform slit gap between the membrane and the substrate, especially at the side walls of rectangular channel. In the present method, the air bubble plugs remained in the extended microchannel during sample filling process, block the particle passage at the both side ends of the membrane, thus all particles flow through the uniform slit gap. Therefore, high-efficient particle trapping without particle loss can be achieved. The present particle trapping chip was composed of three layers: pneumatic (top), membrane and channel (bottom) layers. The membrane was deformed by the pneumatic pressure applied from the top layer. In the experimental study using 10.3 μm-diameter polystyrene beads, the membrane barrier with the air bubble plugs successfully trapped the injected beads with the trapping efficiency of 100% at the flow rate of 10 μl/min, while the barrier without the air bubble plugs showed low efficiency of 20%. At the increased flow rate of 20 μl/min, beads were still trapped with trapping efficiency over 98% in the present device. By using a mixture of 5.7 and 10.3 μm-diameter beads, we also verified the present method was capable to trap and release the beads selectively according to their size with the release efficiency of 95.1%. The present simple and effective particle trapping device is applicable for the high-efficient bioparticle isolation and recovery in the micro total analysis system.     

Processing of concretes with a high power CO2 laser

Laser material processing, being a non-contact process, minimizes many of the complexities involved in the decontamination and decommissioning of nuclear facilities. A high power laser beam incident on a concrete surface can produce spalling, glazing or vaporization, depending upon the laser power density and scan speed. This paper presents effect of various laser processing parameters on the efficiency of material removal by surface spalling and glazing. The size of laser beam at constant fluence or energy density had significantly different effect on the spalling process. In thick concrete block cutting the flow or removal of molten material limits the cutting depth. By employing repeated laser glazing followed by mechanical scrubbing process cutting of 150 mm thick concrete block was carried out. Gravitation force was utilized for molten materials to flow out while drilling holes on vertical concrete walls. The dependence of the incident laser beam angle on drilling time was experimentally studied.     

出口高度对非能动安全壳冷却系统影响

对某大型核反应堆非能动安全壳冷却系统(PCS)中安全壳外部的热环境进行了研究。建立了安全壳外部狭长空间的自然对流换热计算模型,基于Navier-Stokes(N-S)方程进行了求解,同时研究了安全壳出口高度对非能动安全壳冷却系统冷却性能的影响规律。结果表明:在标准大气压下、进口空气温度308.15K时,基准型安全壳按面积加权的出口平均温度为330.33K,引射的冷却空气质量流量为275.85kg/s,冷却空气带走的热量为6160kW;随着安全壳出口高度的增加,安全壳出口质量流量、换热量不断增加,但变化曲线斜率不断降低,最后趋于平缓,同时,衡量冷却空气有效冷却能力的温度效率线性降低,流动损失线性增大,兼顾换热量与流动损失存在一个最优解。     

Droplet-Laden Mist Film Cooling Effectiveness of Cylindrical Holes Embedded in a Transverse Trench

A three-dimensional numerical model of calculating in the Euler approach is developed to calculate a two-phase turbulent near-wall flow; simulation of thermal efficiency of a gas-droplet shielding injected into a transverse trench through inclined cylindrical holes is fulfilled. The influence of the main thermo-gas-dynamic characteristics of the two-phase flow on thermal efficiency is analyzed. Significant increase in thermal efficiency was obtained by adding droplets in the nearwall coolant flow (up to 2 times in comparison with a single-phase flow). A particular advantage of this method of coolant injection is achieved at high injection parameters. It is shown that the use of two-phase gas-droplet near-wall shielding is promising for protection of surfaces against thermal influence of the heated gas flows.     

Effects of time dependency and efficiency on information flow in financial markets

We investigated financial market data to determine which factors affect information flow between stocks. Two factors, the time dependency and the degree of efficiency, were considered in the analysis of Korean, the Japanese, the Taiwanese, the Canadian, and US market data. We found that the frequency of the significant information decreases as the time interval increases. However, no significant information flow was observed in the time series from which the temporal time correlation was removed. These results indicated that the information flow between stocks evidences time-dependency properties. Furthermore, we discovered that the difference in the degree of efficiency performs a crucial function in determining the direction of the significant information flow.