绝缘子闪络毁伤模拟实验系统及其应用

由于绝缘子闪络毁伤与污秽闪络的机理和特性有所不同,尤其是闪络毁伤实验存在一定破坏性,因此建立专用的实验系统是相关研究的先决条件。在对高压电力系统进行分析的基础上,借鉴绝缘子人工污秽闪络实验方法,结合弹药毁伤实验的特点,研制出了能够模拟110kV电压等级的绝缘子闪络毁伤模拟实验系统。毁伤模拟实验表明,该系统性能良好,能够满足毁伤实验研究需要,为导电液溶胶电力毁伤技术的研究与开发创造了必要条件。     

考虑电量执行进度公平性的月度电能交易计划四阶段建模

随着新能源占比的不断提升,新能源输出电量较强的不确定性给现有采用解耦串行方式的月度电能交易计划编制带来诸多问题。文中提出了一种月度电能交易计划编制的时序仿真法,其中:新能源与传统机组的耦合协同优化方式可充分考虑新能源电量不确定性的影响,保障计划准确实施;"分段建模,前细后粗"的四阶段建模思路,可充分利用问题特点,既保证计算收敛且提升计算速度又方便计入运行安全约束,为调度计划制定奠定良好基础;年时间尺度电量执行进度基尼系数约束的引入,可保证各个发电实体电量执行进度的均衡,从而更好地保证公平性。算例结果验证了所提方法的可行性与有效性。     

基于SVM和能量最小化的PolSAR图像分类方法

极化合成孔径雷达(PolSAR)采用全极化的工作方式可以获取地物的多种特征,利用这些特征对地物进行分类是PolSAR图像的重要应用方向。不同的特征和分类器对分类精度有着较大的影响。提出了一种基于支持向量机(SVM)和能量最小化(EM)的极化SAR图像地物分类方法。该方法选择基于6种散射模型的分解方法(6SD)所得的6部分散射能量、总散射能量span和3个极化相干矩阵旋转域角参数作为SVM的输入,得到图像分类结果,并使用基于图割的能量最小化算法α-expansion对分类结果进行优化。最后使用AIRSAR系统获得的Flevoland地区的数据进行实验,结果表明所提算法可以提高总体分类精度,总体分类精度为95.6%,高于其他方法的92.3%。所提算法可以较大幅度地提高散射机理明显的区域,如建筑、森林、水域、草地等区域的分类精度。另外,结合EM优化结果可以提高所有种类的分类精度,其中在苜蓿、小麦1、小麦2、裸地、草地、油菜籽等区域的分类精度可提高1%以上。     

Structure and electrochemical properties of titanate perovskite with in situ exsolution as a ceramic electrode material

Journal of Electroceramics - In this work, the structure and electrochemical properties of titanate ceramics with in situ Ni exsolution are investigated to identify the structure-performance...     

Analysis of Methods for Parallel Operation of Frequency Converters

Consideration is given to methods for the parallel operation of frequency converters by applying the active load division. The simulation model of the converter is presented. It consists of three parallel independent modules. A new principle of constructing individual modules of a frequency converter and the principle of their communication interface exhibiting resistance to destabilizing effects and allowing safe operation under nominal conditions even with a 5- to 10% range in time and amplitude values of pilot signals are developed.     

金沙江乌东德水电站大坪地滑坡稳定性研究

介绍了大坪地滑坡区的地形地貌与地层岩性,阐述了该滑坡体的变形特征,结合大坪地滑坡的计算模型,分析了库水升降作用对滑坡稳定性的影响,该分析成果将对该库区的滑坡防治提供一定的参考。     

Seismic response analysis of self-anchored suspension bridge with multi-tower

Seismic performance of a self-anchored suspension bridge with three-tower were investigated. A three-dimensional nonlinear finite element model of the bridge was developed using Sap2000. Nonlinear time history analysis was conducted using Fast Nonlinear Analysis Method (FNA), while beam-column effect and nonlinear behavior of bearing and damper were taken into consideration. The analyze results showed that the middle tower was more vulnerable compared with the two side towers; there existed risk of buckling of composite beam, and the most vulnerable part lied near steel-concrete composite segment. Viscous dampers were effective to reduce seismic response of towers as well as girders.

     

Simulation of one-sided heating of boiler unit membrane-type water walls

This study describes the results of simulation of the temperature field and the stress-strain state of membrane-type gastight water walls of boiler units using the finite element method. The methods of analytical and standard calculation of one-sided heating of fin-tube water walls by a radiative heat flux are analyzed. The methods and software for input data calculation in the finite-element simulation, including thermoelastic moments in welded panels that result from their one-sided heating, are proposed. The method and software modules are used for water wall simulation using ANSYS. The results of simulation of the temperature field, stress field, deformations and displacement of the membrane-type panel for the boiler furnace water wall using the finite-element method, as well as the results of calculation of the panel tube temperature, stresses and deformations using the known methods, are presented. The comparison of the known experimental results on heating and bending by given moments of membrane-type water walls and numerical simulations is performed. It is demonstrated that numerical results agree with high accuracy with the experimental data. The relative temperature difference does not exceed 1%. The relative difference of the experimental fin mutual turning angle caused by one-sided heating by radiative heat flux and the results obtained in the finite element simulation does not exceed 8.5% for nondisplaced fins and 7% for fins with displacement. The same difference for the theoretical results and the simulation using the finite-element method does not exceed 3% and 7.1%, respectively. The proposed method and software modules for simulation of the temperature field and stress-strain state of the water walls are verified and the feasibility of their application in practical design is proven.     

Test facility for investigation of heat transfer of promising coolants for the nuclear power industry

The results are presented of experimental investigations into liquid metal heat transfer performed by the joint research group consisting of specialist in heat transfer and hydrodynamics from NIU MPEI and JIHT RAS. The program of experiments has been prepared considering the concept of development of the nuclear power industry in Russia. This concept calls for, in addition to extensive application of water-cooled, water-moderated (VVER-type) power reactors and BN-type sodium cooled fast reactors, development of the new generation of BREST-type reactors, fusion power reactors, and thermonuclear neutron sources. The basic coolants for these nuclear power installations will be heavy liquid metals, such as lead and lithium-lead alloy. The team of specialists from NRU MPEI and JIHT RAS commissioned a new RK-3 mercury MHD-test facility. The major components of this test facility are a unique electrical magnet constructed at Budker Nuclear Physics Institute and a pressurized liquid metal circuit. The test facility is designed for investigating upward and downward liquid metal flows in channels of various cross-sections in a transverse magnetic field. A probe procedure will be used for experimental investigation into heat transfer and hydrodynamics as well as for measuring temperature, velocity, and flow parameter fluctuations. It is generally adopted that liquid metals are the best coolants for the Tokamak reactors. However, alternative coolants should be sought for. As an alternative to liquid metal coolants, molten salts, such as fluorides of lithium and beryllium (so-called FLiBes) or fluorides of alkali metals (so-called FLiNaK) doped with uranium fluoride, can be used. That is why the team of specialists from NRU MPEI and JIHT RAS, in parallel with development of a mercury MHD test facility, is designing a test facility for simulating molten salt heat transfer and hydrodynamics. Since development of this test facility requires numerical predictions and verification of numerical codes, all examined configurations of the MHD flow are also investigated numerically.     

氧输送管路动态水试仿真分析

利用AMESim软件针对某型运载火箭氧输送管水试试验进行仿真分析,建立无蓄压器和带蓄压器试验系统仿真模型,模拟试验过程中的主要压力变化,并利用软件自带的FFT变换(快速傅立叶变换)获取管路在与水介质耦合作用下的一阶频率和二阶频率。通过对比分析发现,仿真结果与试验结果比较吻合,验证了仿真模型的有效性。