负载与流量对分流阀分流精度的影响

该文通过对分流阀分流精度的静态分析,得出了分流阀负载压差ΔPL、分流精度δ与阀芯位移0x之间的关系表达式,并利用MATLAB作图程序,绘出了负载压差ΔpL、输入流量Q与分流阀分流精度δ之间的关系图,然后对所得结果进行讨论,指出了分流阀在使用时注意的一些问题。

SP型煤用分流器的改进研究及设计计算

针对现有SP型煤用分流器在实际生产应用过程中的常见问题,进行结构改进研究,并提出主要参数的设计和确定原则,阐述了分流器的设计计算方法。改进后分流器结构简单,分流精度提高,运行安全可靠,使用效果良好,能保证最大的生产效益。

SFD2F100型分流集流阀的参数优化

以SFD2F100分流集流阀为基础,分析其结构和工作原理,建立其数学模型以及AMESim仿真模型。通过理论分析以及模型仿真研究固定阻尼孔、分流阀出油口对分流阀分流精度的影响。通过模型仿真研究工作压力以及工作所需流量对分流阀精度产生的影响,为分流阀的设计以及选用提供依据。

同步分流马达选型分析及试验研究

该文对几款同步分流马达的分流精度进行了试验研究,对分流马达之间的特性差异进行了对比分析,为工程应用中分流马达的选型提供了较好的参考价值。

齿轮式流量分流器的设计

介绍了ＬＦＱ型齿轮式流量分流器的主要参数选择、结构设计以及提高分流精度的措施。

基于混合无源控制的变换器并联研究

由于线路阻抗的不同和负载的变化,直流微电网中各功率单元会出现电流分配不均和直流母线电压的波动。针对以上问题,在传统无源控制的基础上增加外部电压闭环和线路阻抗补偿电路,提出了一种将无源控制与PI控制相结合的混合无源控制策略。该方法不仅能快速跟踪负载变化且没有静态误差,而且可以有效地提高由于线路阻抗的不同而引起的并联变换器的输出电流分配精度。通过仿真表明,混合无源控制策略相比于传统的无源控制,在负载发生变化时,直流母线电压可以保持稳定,同时也提高了分流精度。通过搭建硬件在环测试的RT-LAB实时仿真平台,进一步验证了混合无源控制策略的可行性。

用分流-集流阀实现质子加速器上轭液压举升的同步传动

质子加速器检修时其上轭需用 2个举升油缸驱动其同步平稳上升下降。介绍了该设备用分流 -集流阀实现上述 2个举升油缸同步传动的液压系统原理、结构设计、保证同步精度的技术措施。

基于补偿截距电压的直流微电网分级改进下垂控制研究

针对传统下垂控制方法存在的分流精度和母线电压偏差难以同时调节的矛盾,提出了基于补偿截距电压的改进下垂控制策略。首先,分析了传统下垂控制原理,指出了传统下垂控制的弊端。其次,提出了分级改进下垂控制原理,改进得到总的控制模型。最后,在Matlab/Simlink和PSCAD中搭建相应的数学模型和电路模型,计算并设置相应的参数,验证所提出的控制策略进行了稳定性和有效性。

新型数字同步阀建模及动态仿真

文章首先介绍了新型数字同步阀的原理及结构。在一组非线性运动微分方程的基础上 ,通过线性化建立了该阀的状态空间模型。这一模型可作为数字同步阀设计过程中性能分析和参数优化的依据以及控制系统设计的参考。运用Matlab仿真 ,从快速性和稳态误差二个方面 ,分析了该阀动态特性。

Effect of inlet configuration on hydrocyclone performance

Inlet configuration is important parameter of hydrocyclones,which has great impact on the classification performance.The effects of inlet configuration on the precise classification were studied by computational fluid dynamics under variouscombinations of inlet diameter and inlet velocity.The results showed that a high sharpness of classification was achieved withspecific inlet diameter and inlet velocity.The separation efficiency of the coarse particles by underflow significantly decreased wheninlet had an oversize diameter owing to a stronger short-circuit flow.It is resulted from the chaotic flow and the stronger pressuregradient around the vortex finder.Meanwhile,a low separation efficiency of the fine particles by overflow was achieved when inletvelocity was high,which indicated a low sharpness caused by the overlarge centrifugal force.

Fine-resolution simulation of surface current and sea ice in the Arctic Mediterranean Seas

A free-resolution model is developed for ocean circulation simulation in the National Key Laboratory of Numerical Modeling for Atmospheric Sciences and Geophysical Fluid Dynamics （LASG）, Chinese Academy of Sciences, and is applied to simulate surface current and sea ice variations in the Arctic Mediterranean Seas. A dynamic sea ice model in elastic-viscous-plastic rheology and a thermodynamic sea ice model are employed. A 200-year simulation is performed and a dimatological average of a 10-year period （14lst-150th） is presented with focus on sea ice concentration and surface current variations in the Arctic Mediterranean Seas. The model is able to simulate well the East Greenland Current, Beaufort Gyre and the Transpolar Drift, but the simulated West Spitsbergen Current is small and weak. In the March climatology, the sea ice coverage can be simulated well except for a bit more ice in east of Spitsbergen Island. The result is also good for the September scenario except for less ice concentration east of Greenland and greater ice concentration near the ice margin. The extra ice east of Spitsbergen Island is caused by sea ice current convergence forced by atmospheric wind stress.

Accurate Classification of P2P Traffic by Clustering Flows

P2P traffic has always been a dominant portion of Internet traffic since its emergence in the late 1990s. The method used to accurately classify P2P traffic remains a key problem for Internet Service Producers （ISPs） and network managers. This paper proposes a novel approach to the accurate classification of P2P traffic at a fine-grained level, which depends solely on the number of special flows during small time intervals. These special flows, named Clustering Flows （CFs）, are de- fined as the most frequent and steady flows generated by P2P applications. Hence we are able to classify P2P applications by detecting tlle appearance of corresponding CFs. Com- pared to existing approaches, our classifier can realise high classification accuracy by ex- ploiting only several generic properties of flows, instead of extracting sophisticated fea- tures from host behaviours or transport layer data. We validate our framework on a large set of P2P traffic traces using a Support Vector Machine （SVM）. Experimental results show that our approach correctly classifies P2P ap- plications with an average true positive rate of above 98% and a negligible false positive rate of about 0.01%.

The Two Patterns of High Exact Difference in Convection Equation

This paper gives two patterns of high exact d ifference in solving convection equation. The error of cut section is to O(Δ t 2+Δx 4).

Effects of mask wall angle on matrix-hole shape changes during electrochemical machining by mask

The influences of the mask wall angle on the current density distribution,shape of the evolving cavity and machining accuracy were investigated in electrochemical machining(ECM) by mask.A mathematical model was developed to predict the shape evolution during the ECM by mask.The current density distribution is sensitive to mask wall angle.The evolution of cavity is determined by the current density distribution of evolving workpiece surface.The maximum depth is away from the center of holes machined,which leads to the island appearing at the center of cavity for mask wall angles greater than or equal to 90°(β≥90°).The experimental system was established and the simulation results were experimentally verified.The results indicate that the simulation results of cavity shape are consistent with the actual ones.The experiments also show that the repetition accuracy of matrix-hole for β≥90° is higher than that for β<90°.A hole taper is diminished,and the machining accuracy is improved with the mask wall angle increasing.

学生:一池涌动的活水

学生是活化的教育资源,是充满生命活力的个体,像一条山涧自由流淌的小溪。教师应该做到广度开发,经验宜显不宜隐;精度分流,疑惑宜解不宜结;多向度转换,错误宜疏不宜堵。

Comparison of Improved Meshless Interpolation Schemes for SPH Method and Accuracy Analysis

In the smoothed particle hydrodynamics (SPH) method, a meshless interpolation scheme is needed for the unknown function in order to discretize the governing equation.A particle approximation method has so far been used for this purpose.Traditional particle interpolation (TPI) is simple and easy to do, but its low accuracy has become an obstacle to its wider application.This can be seen in the cases of particle disorder arrangements and derivative calculations.There are many different methods to improve accuracy, with the moving least square (MLS) method one of the most important meshless interpolation methods.Unfortunately, it requires complex matrix computing and so is quite time-consuming.The authors developed a simpler scheme, called higher-order particle interpolation (HPI).This scheme can get more accurate derivatives than the MLS method, and its function value and derivatives can be obtained simultaneously.Although this scheme was developed for the SPH method, it has been found useful for other meshless methods.

Accuracy and spatio-temporal variation of high resolution satellite rainfall estimate over the Ganjiang River Basin

Based on spatial interpolation rainfall of the ground gauge measurement,we proposed a method to comprehensively evaluate and compare the accuracy of satellite rainfall estimates (SREs) at three spatial scales:0.25°×0.25° grid scale,sub-catchment scale and the whole basin scale.Using this method,we evaluated the accuracy of six high-resolution monthly SREs (TRMM 3B42 V6,3B42RT V6,CMORPH,GSMaP MWR+,GSMaP MVK+ and PERSIANN) and revealed the spatio-temporal variation of the SRE accuracy based on spatial interpolated rainfall from a dense network of 325 gauges during 2003-2009 over the Ganjiang River Basin in the Southeast China.The results showed that ground gauge-calibrated 3B42 had the highest accuracy with slight overestimation,whereas the other five uncalibrated SREs had severe underestimation.The accuracy of the six SREs in wet seasons was remarkably higher than that in the dry seasons.When the time scale was expanded,the accuracy of SRE,particularly 3B42,increased.Furthermore,the accuracy of SREs was relatively low in the western mountains and northern piedmont areas,while it was relatively high in the central and southeastern hills and basins of the Ganjiang River Basin.When the space scale was expanded,the accuracy of the six SREs gradually increased.This study provided an example for of SRE accuracy validation in other regions,and a direct basis for further study of SRE-based hydrological process.