Er∶YAG激光SWEEPS双脉冲模式激活荡洗在自由水域中的气泡动力学观测

目的:探究Er∶YAG激光光子增强的光声流(SWEEPS)技术在不同脉冲间隔参数条件下的蒸汽气泡动力学效应。方法:Er∶YAG激光手具连接工作尖放置于自由水域模型中,设置SWEEPS模式,150~600μs脉冲间隔激活。高速摄像机(200 000 Hz)摄录Er∶YAG激光激活荡洗引起空穴效应的过程,matlab逐帧分析蒸汽气泡间的相互作用关系,及蒸汽气泡消失时刻气泡残余与激光工作尖之间的距离。实验数据经SPSS 19.0统计软件进行统计分析。结果:在自由水域中,Er∶YAG激光SWEEPS模式下,脉冲间隔设置的改变会引起两次脉冲激发的蒸汽气泡形成不同的相互作用关系,包括双气泡融合、双气泡撞击及双气泡脱离。其中,脉冲间隔设置为360~440μs时,双气泡撞击现象会使蒸汽气泡消失时气泡残余与激光工作尖之间达到最远距离。结论:在自由水域中,Er∶YAG激光双脉冲SWEEPS模式在不同的脉冲间隔设置下引起双气泡间形成不同的作用关系,该现象可能可以增强Er∶YAG激光空穴效应,强化激光激活荡洗的临床应用效果。

Sparse-Grid Implementation of Fixed-Point Fast Sweeping WENO Schemes for Eikonal Equations

Fixed-point fast sweeping methods are a class of explicit iterative methods developed in the literature to efficiently solve steady-state solutions of hyperbolic partial differential equations(PDEs).As other types of fast sweeping schemes,fixed-point fast sweeping methods use the Gauss-Seidel iterations and alternating sweeping strategy to cover characteristics of hyperbolic PDEs in a certain direction simultaneously in each sweeping order.The resulting iterative schemes have a fast convergence rate to steady-state solutions.Moreover,an advantage of fixed-point fast sweeping methods over other types of fast sweeping methods is that they are explicit and do not involve the inverse operation of any nonlinear local system.Hence,they are robust and flexible,and have been combined with high-order accurate weighted essentially non-oscillatory(WENO)schemes to solve various hyperbolic PDEs in the literature.For multidimensional nonlinear problems,high-order fixed-point fast sweeping WENO methods still require quite a large amount of computational costs.In this technical note,we apply sparse-grid techniques,an effective approximation tool for multidimensional problems,to fixed-point fast sweeping WENO methods for reducing their computational costs.Here,we focus on fixed-point fast sweeping WENO schemes with third-order accuracy(Zhang et al.2006[41]),for solving Eikonal equations,an important class of static Hamilton-Jacobi(H-J)equations.Numerical experiments on solving multidimensional Eikonal equations and a more general static H-J equation are performed to show that the sparse-grid computations of the fixed-point fast sweeping WENO schemes achieve large savings of CPU times on refined meshes,and at the same time maintain comparable accuracy and resolution with those on corresponding regular single grids.

Numerical Investigation of Flow Separation Control over an NACA0018 Airfoil Using Sweeping Jet Actuator

As an active flow control technology and with the advantages of no moving components, the Sweeping jet actuator has become a hotspot in the field of flow control. However, the linear relationship between oscillation frequency and momentum coefficient in a sweeping jet actuator makes it difficult to determine the dominant factors that affect control effectiveness. Decoupling the oscillation frequency and momentum coefficient, as well as determining the control mechanism, is the focus of studying the sweeping jet actuator. In this study, a novel sweeping jet actuator is designed using synthetic jets instead of feedback channels and applied to the flow separation control of NACA0018 airfoil. This article studies the control effect under three oscillation frequencies of F+ = f × c/U∞ = 1, 10, 100 and three momentum coefficients of Cμ = 0.45%, 0.625%, 0.9%. The numerical results indicate that all three oscillation frequencies have good control effects on flow separation, and the control effect is best when F+ = 1, with the maximum lift coefficient increasing by approximately 14% compared to the other two cases. And the sweeping jet actuator has a better ability to control flow separation as the momentum coefficient increases. By decoupling the characteristics of the sweeping jet actuator and conducting numerical analysis of the flow control effect, it will promote its better engineering application in the field of flow control. .

A Fixed-Point Fast Sweeping WENO Method with Inverse Lax-Wendroff Boundary Treatment for Steady State of Hyperbolic Conservation Laws

Fixed-point fast sweeping WENO methods are a class of efficient high-order numerical methods to solve steady-state solutions of hyperbolic partial differential equations(PDEs).The Gauss-Seidel iterations and alternating sweeping strategy are used to cover characteristics of hyperbolic PDEs in each sweeping order to achieve fast convergence rate to steady-state solutions.A nice property of fixed-point fast sweeping WENO methods which distinguishes them from other fast sweeping methods is that they are explicit and do not require inverse operation of nonlinear local systems.Hence,they are easy to be applied to a general hyperbolic system.To deal with the difficulties associated with numerical boundary treatment when high-order finite difference methods on a Cartesian mesh are used to solve hyperbolic PDEs on complex domains,inverse Lax-Wendroff(ILW)procedures were developed as a very effective approach in the literature.In this paper,we combine a fifthorder fixed-point fast sweeping WENO method with an ILW procedure to solve steadystate solution of hyperbolic conservation laws on complex computing regions.Numerical experiments are performed to test the method in solving various problems including the cases with the physical boundary not aligned with the grids.Numerical results show highorder accuracy and good performance of the method.Furthermore,the method is compared with the popular third-order total variation diminishing Runge-Kutta(TVD-RK3)time-marching method for steady-state computations.Numerical examples show that for most of examples,the fixed-point fast sweeping method saves more than half CPU time costs than TVD-RK3 to converge to steady-state solutions.

计算注水开发不同阶段体积波及系数的新方法

体积波及系数是油田评价开发效果、制定开发调整方案的重要依据。为了研究注水开发不同阶段体积波及系数的变化规律,从注入孔隙体积倍数角度出发,根据油水相对渗流理论与油藏工程原理,提出了驱油效率与注入孔隙体积倍数的计算模型,建立了体积波及系数计算方法,并以胜利油田3个试验区为例进行了计算与分析。结果表明:驱油效率与注入孔隙体积倍数之间满足指数方程,二者关系曲线呈上凸型;随着注入孔隙体积倍数的增大,驱油效率由最小驱油效率逐渐增大,并趋近于最大驱油效率;对驱油效率计算模型进行验证,预测值与实测值的平均相对误差仅为1.90%;水驱开发过程中体积波及系数与注入孔隙体积倍数关系曲线整体呈快升-缓升-近平台状演变趋势,计算结果能够指导开发调整措施的效果评价;3个试验区目前体积波及系数接近90%,波及区内存在大量剩余油,亟需开展波及区内主体剩余油的描述与启动方法研究。

求解二阶锥绝对值方程组的惯性two-sweep迭代法

提出一种求解二阶锥绝对值方程组(SOCAVE)的惯性two-sweep迭代法。通过引入一个惯性项和一个恒等式,在系统矩阵和迭代矩阵满足一定条件的情况下,分析该算法的收敛性,数值结果表明所提出的方法是可行且有效的。

回扫:多行文本阅读中必不可少的眼动

回扫是读者的注视点从文本上一行行末到下一行行首的眼动,在多行文本阅读中非常重要且必不可少。目前,回扫的相关研究较少,且主要集中于回扫起跳位置、回扫目标选择、回扫的精确性、与回扫相邻的注视四个方面。本文先简单介绍回扫研究中常用的眼动指标,再详细介绍回扫的四个方面的研究,最后提出未来的研究设想:关注其他文字与文字系统的回扫、考察二语阅读中的回扫、探究行末注视是否受行末注视词词汇特征的影响、探讨回扫过程中预视的缺失对词汇加工的影响以帮助我们理解边界范式中的“预视效益”,完善现有模型以适应回扫。

基于因素空间理论的扫类连环多分类算法

为解决多分类问题,基于因素空间理论中因素显隐的思想,在扫类连环分类算法基础上,定义类别的合并,提出因素显隐的合并扫类连环分类方法,给出算法步骤,并用数值算例进行分析;定义类别的两两组合,提出因素显隐的两两扫类连环分类方法,给出算法步骤,并用数值算例进行分析。提出采用因素显隐的差额绝对值方法解决两个算法执行过程中出现的决策类别分不开的问题;对UCI数据集中3个实例与支持向量机作了算法对比分析,研究结果表明:提出的合并扫类连环分类方法、两两扫类连环分类方法实现了因素显隐,分类算法的精确度优于支持向量机。多分类学习的因素显隐研究结论拓展了因素空间的理论及应用研究。

高模量温拌改性剂对沥青基本指标和疲劳性能影响研究

为评价高模量温拌改性剂对基质沥青基本指标和疲劳性能的影响,在70#基质沥青中掺入不同剂量改性剂,采用动态剪切流变仪(DSR)对试验沥青进行动态扫描试验研究。首先制备了不同掺量高模量温拌改性剂改性沥青,随后评价其基本性能,并通过布氏粘度试验分析不同沥青的拌和温度与压实温度;再采用DSR对不同掺量高模量温拌改性剂改性沥青进行线性振幅(LAS)扫描试验和时间扫描试验。通过LAS试验和粘弹性连续损伤(VECD)模型分析不同掺量(0%,2%,3%,4%)改性沥青和SBS改性沥青的疲劳特性;基于动态扫描试验,应用耗散能原理探究不同掺量改性剂对沥青疲劳性能,同时把不同掺量改性70#沥青与SBS改性沥青的试验结果进行比对,并分析了改性剂的作用机理。试验结果表明:随着高模量温拌改性剂掺量增加,软化点增加,针入度和延度减少,3%掺量改性沥青软化点稍优于SBS沥青;改性沥青粘度随着改性剂增加先减后增,改性后沥青的拌和、碾压温度与70#基质沥青相当,均远小于SBS改性沥青,即改性后的沥青有良好的温拌效果;高模量温拌改性剂可不同程度提高沥青的疲劳性能,合适掺量改性沥青疲劳性能可与SBS改性沥青相当,高模量温拌改性剂的建议掺量为3%;研究结果将为高模量温拌改性路面材料工程应用提供参考。

压力敏感涂料测量技术在掠型叶栅表面测压中的应用

为了获得某掠型叶片吸力面压力分布,对一稠度为1.53,掠角为10.7°的掠叶栅进行了光路布局以及压力敏感涂料(PSP)压力测量,利用图像处理和三维重构算法得到了可读性高、便于数据提取的三维叶片吸力面压力分布,并和测压孔测量结果进行了对比。结果表明:利用自主发展的光路布局方法,有效解决了叶片表面光照辐照度不均匀、拍摄视角受限的问题;得到了高信噪比的原始压敏图像以及宽范围多工况的掠叶栅吸力面全域压力分布。与测压孔测量相比,PSP测量误差在5%以内,并且PSP测量结果还捕捉到了峰值等熵马赫数位置沿弦向的迁移以及叶片尾缘的气流分离现象。对不同攻角和来流马赫数下的掠型叶片吸力面压力分布进行分析:掠型叶片在零攻角和正攻角下存在明显的径向压力梯度,促使后掠型叶片气流向前掠迁移,增加了前掠下流低能流体的能量,使得前掠更有利于延迟角区分离,后掠则更容易发生角区分离;掠型叶片在低来流马赫数下展向压力对称性良好,掠设计的影响不显著,高来流马赫数则放大了前后掠对角区分离控制效果的不同。相比传统测压孔有限的压力分辨率,PSP测量可为掠型叶片设计和流动机理分析提供丰富可靠的压力实验数据。

胡尖山油田浅层C2油藏剩余油定量表征及成果应用

胡尖山油田浅层C2油藏历经20年的开发,已进入双高开发阶段,因此,对剩余油分布规律的认识有待于进一步深化。本次研究主要借助剩余油测井新技术及油藏数值模拟开展老区剩余油定量表征技术攻关,实现剩余油描述由定性向定量转变,不断提高剩余油预测精准率。明确了研究区剩余油富集三大主控因素:(1)受沉积韵律及底水锥进影响,剩余油在油井周围呈倒三角分布;(2)水驱较均匀,剩余油主要富集在油藏边部、水驱未波及区和套破井周围;(3)微构造高点控制了剩余油的分布,剩余油主要分布在构造较高部位[1]。根据剩余油分布规律,充分利用储层韵律特征及隔夹层的发育情况,对研究区进行加密侧钻调整部署,试验区取得了良好的效果,研究区最终采收率提高2.0%,为同类油藏的后期加密侧钻调整提供了一定的借鉴作用。

断控缝洞型碳酸盐岩立式板状油藏注采井网构建

断控缝洞型碳酸盐岩油藏缝洞结构和连通关系复杂,传统井网部署易产生低产能井,需构建立体注采井网以提高产能。通过油藏数值模拟研究了不同因素对塔里木富满油田满深3和满深4井区立体注采井网波及系数的影响,并设计了先导试验方案预测产能。结果表明,满深3井区注气井与采油井单个交错排状分布时波及系数最大;采油井纵向深度越大,波及系数越大;平面注采井距在500~1000m波及系数相对稳定,井距增至1500m时,波及系数大幅度减小。满深4井区注气井、注水井与采油井单个交错排状分布时波及系数最大。先导试验中,满深3和满深4井区分别采取“浅部注N_(2),深部采油”和“顶部注N_(2),底部注水,中部采油”的井网构建方案,阶段末采出程度分别达到21.3%与22.4%,相比于基础衰竭式开发和注水开发方案有了显著提升。

基于等效单自由度的涡轮扫频振动研究

针对有限元方法对扫频工况下涡轮振动求解出现的困难,提出了基于等效单自由度的涡轮结构振动扫频算法,并对涡轮扫频振动特征进行分析.建立了涡轮流固耦合计算模型,使用非线性谐波法得到了涡轮表面的气动激励,使用谐响应方法分析了涡轮的稳态振动特性.基于能量原理,建立了涡轮等效单自由度计算模型,通过与稳态振动结果的对比,验证了方法的可行性与正确性,并利用所建立模型分析了涡轮的扫频振动特征.结果表明,涡轮在扫频工况下响应峰值、半功率带宽以及响应曲线形状等特征与稳态工况存在差异.等效单自由度算法与有限元方法计算得到的涡轮响应误差小于10%,共振峰偏移率小于1%.

扫秒式和跳秒式石英钟机芯声发射时频信号分析

噪声是评价和改进石英钟机芯内部结构及其材料特性的重要指标,传统的分贝仪无法分析机芯噪声时频特性.该文利用声发射技术检测扫秒式和跳秒式机芯的噪声特征,并对两种机芯的声发射信号进行时域和频域特征分析.研究结果表明,与跳秒式机芯相比,扫秒式机芯的上升时间、振铃计数值、能量、幅值、RMS、ASL约分别是其的1.6倍、7.24倍、0.001 9倍、0.74倍、0.043倍和0.59倍;扫秒式机芯声发射时域信号不规则,而跳秒式机芯声发射信号振幅规则且信号强度大;扫秒式机芯功率谱峰值主要在高频段,跳秒式机芯功率谱峰值在低频段且功率损耗更大;经小波分析后,跳秒式机芯声发射时频信号波形呈规则对称分布的橄榄状,而扫秒式机芯声发射时频信号波形呈不对称与不规则特征.声发射信号时频分析可为改进机芯性能提供理论参考依据.

分布式电源对配电网潮流计算的影响研究

配电中接入的分布式电源的增多,潮流计算时,传统的前推回代法无法满足精度要求。对系统研究发现,分布式电源的出力和接入位置对配电网的网损有不同的影响,阐述了分布式电源潮流计算模型,并引入了一种带有PV节点无功修正的分布式电源配电网潮流计算方法。通过对IEEE14节点系统进行仿真验证,证明了所提算法的有效性和收敛性。研究结果显示:新提出的方案和技术能够更加高效地解决带有分布式电源的配电网潮流问题。

SWEEP曲面中三种定位标架的分析比较

在基于 SWEEP的几何造型中 ,一个基本的问题是运动路径上活动标架的确定 ,尤其对于运动路径是空间曲线的情形 ,它直接影响到所生成 SWEEP曲面的形状控制 ;在其它应用中 ,也直接影响到运动物体的形状和姿态的调整 .到目前为止 ,已经有几种活动标架的确定方法 ,但它们对路径曲线的要求和所生成的 SWEEP曲面的形状效果是不同的 .文中比较了三种不同的活动标架 ,用实例说明了这些标架之间的差别 ,并在实用系统中实现 .

SWEEP曲面的NURBS逼近

提出种SWEEP曲面用NURBS逼近的方法，对于截面线的定位，提出了一种定位方法，对于逼近误差控制，可转化为对插值曲线的误差估计．本文算法已在具有自主版权的Gems5．

MASC:一种基于移动辅助节点的Sweep Coverage机制

为了改进Sweep Coverage机制的性能,引入了移动辅助节点来辅助数据传输,并在此基础上提出了一种两层结构的Sweep Coverage机制(Mobile-Assisted Sweep Coverage,MASC)。MASC首先将POI分配给移动传感器节点完成数据采集,然后通过移动辅助节点来实现移动传感器节点和汇聚节点间数据的中继。仿真结果表明,在相同的网络场景下,提出的MASC机制较以往的覆盖机制取得更好的性能表现。

Quantitative Description of the Effects of Sweep Efficiency and Displacement Efficiency during Chemical Flooding on a Heterogeneous Reservoir

The processes of flooding—water flooding, polymer flooding and ternary combination flooding—were simulated respectively on a 2-D positive rhythm profile geological model by using the ASP numerical modeling software developed by RIPED (Yuan, et al. 1995). The recovery coefficient, remaining oil saturation, sweep efficiency and displacement efficiency were calculated and correlated layer by layer. The results show that the sweep efficiency and displacement efficiency work different effects on different layers in the severely heterogeneous reservoir. The study shows that the displacement efficiency and sweep efficiency play different roles in different layers for severely heterogeneous reservoirs. The displacement efficiency contributes mainly to the high permeability zones, the sweep efficiency to the low permeability zones, both of which contribute to the middle permeable zones. To improve the sweep efficiency in the low permeability zones is of significance for enhancing the whole recovery of the reservoir. It is an important path for improving the effectiveness of chemical flooding in the severely heterogeneous reservoirs to inject ternary combination slug after profile control.

基于SWEEP方法的改进车辆路径协作策略研究

针对需求随机的车辆路径优化问题,提出了一种基于SWEEP方法的改进车辆路径协作策略,构造了基于该策略的车辆任务量分配模型、设计了求解该模型的启发式算法。该策略采用SWEEP规则对基本车未完成任务的客户重新进行路径优化,然后利用SWEEP车服务这些客户,以缩短客户的服务时间、减少运输成本。应用此方法对24个不同规模的车辆路径优化问题进行了计算机仿真,结果表明,该任务分配模型和算法具有较强的适用性,改进的SWEEP协作策略能够有效地解决解随机车辆路径问题。