A time-dependent finite element method (FEM) is developed to analyze the transient hydroelastic responses of very large floating structures (VLFS) subjected to dynamic loads. The hydrodynamic problem is formulated bas...A time-dependent finite element method (FEM) is developed to analyze the transient hydroelastic responses of very large floating structures (VLFS) subjected to dynamic loads. The hydrodynamic problem is formulated based on the linear theory of fluid and the structural response is analyzed based on the thin plate theory. The FEM truncates the unbounded fluid domain by introducing an artificial boundary surface, thus defining a finite computational domain. At this boundary surface an impedance boundary conditions are applied so that no wave reflections occur. In the proposed scheme, all of the procedures are processed directly in time domain, which is efficient for nonlinear analyses of structure floating on unbounded fluid. Numerical results indicate acceptable accuracy of the proposed method.展开更多
All step-by-step integration methods available at present for structural dynamic analysis use the displacement, velocity, and acceleration vectors computed at a previous interval for evaluating those at an advanced ti...All step-by-step integration methods available at present for structural dynamic analysis use the displacement, velocity, and acceleration vectors computed at a previous interval for evaluating those at an advanced time step. Hence, an accumulated error will be definitely introduced after such integration. This paper presents a novel time-domain-advance integration method for transient elastodynamic problems in which the exact initial conditions are strictly satisfied for the solutions for each time step. In this way, the accumu- lated error can be eliminated and the approximate solutions will converge to the exact ones uniformly on the whole time domain. Therefore. the new method is more accurate. When applying to a structural dynamic problem, the present mehtod does not have to use the initial acceleration as is required by most other algorithms and the corresponding computation can be avoided. The present method is simple in representation, easy to be programmed, and especially suitable for accurate analyses of long-time problems. The comparison of numerical results with exact ones shows that the present method is much more accurate than some most widely used algorithms.展开更多
The hidden water-bearing structures near the roadway tunnelling face are very likely to cause water seepage accidents in coal mines.Currently,transient electromagnetic(EM)technology has be-come an important method to ...The hidden water-bearing structures near the roadway tunnelling face are very likely to cause water seepage accidents in coal mines.Currently,transient electromagnetic(EM)technology has be-come an important method to detect water damage in advance of roadway excavation.In this paper,the time-domain finite element algorithm based on unstructured tetrahedron grids is used to accurate-ly simulate the geological body in front of the roadway excavation face and analyze its response.The authors detect the distance between the roadway excavation face and the low-resistivity water-bearing body,the resistivity difference between the low-resistivity body and surrounding rock,and the influence of the size of the low-resistivity body on the transient EM response.Furthermore,the common types of low-resistivity bodies in the roadway drivage process are used for modeling to analyze the attenuation of the detected EM response when there are low-resistivity bodies in front of the roadway.The research in this paper can help effectively detecting the water-bearing low-resistivity body in front of the roadway drivage and lay a foundation for reducing the risk of water seepage accidents.展开更多
新能源并网逆变器的自同步电压源控制技术对构建以新能源为主体的新型电力系统具有重大意义,然而当弱电网电压发生跌落时,传统的自同步控制方法在低电压穿越(low voltage ride through,LVRT)过程中会出现由于电网阻抗大、相角差大等引...新能源并网逆变器的自同步电压源控制技术对构建以新能源为主体的新型电力系统具有重大意义,然而当弱电网电压发生跌落时,传统的自同步控制方法在低电压穿越(low voltage ride through,LVRT)过程中会出现由于电网阻抗大、相角差大等引起的瞬态电流冲击大、弱电网电压无法维持稳定、电压-电流控制能力须相互平衡等一系列问题。推导了低电压跌落时弱电网电压矢量与弱电网阻抗、并网电流之间的关系以及影响因素,进而提出了一种基于暂稳态阻抗重塑的多状态跟随自同步电压源LVRT控制方法,通过稳态阻抗来平衡电压和电流之间的控制能力;通过暂态阻抗重塑保证了整个过程的电压与电流瞬态控制与平滑过渡能力。为了进一步保证弱网下跌落和恢复过渡过程的平滑切换与稳定运行,提出了基于多状态跟随的暂态控制策略,优先发出无功支撑电网电压,并补偿相角和幅值突变带来的瞬态过电压和过电流冲击,帮助电网电压平稳过渡。最后,在Matlab/Simulink中验证了所提控制方法的正确性与有效性。展开更多
Characteristic analysis of transient electromagnetic disturbance data is very important. In this paper, the time-domain and frequency-domain characteristics of transient electromagnetic disturbance caused by switching...Characteristic analysis of transient electromagnetic disturbance data is very important. In this paper, the time-domain and frequency-domain characteristics of transient electromagnetic disturbance caused by switching operations in substations are analyzed. Two methods are adopted in time-domain analysis. One method is histogram and the other one is normality test. An appropriate procedure for the normality test is proposed. Furthermore, the method used in frequency- domain analysis is to obtain overall envelope. These statistical characteristic analysis methods are showed to be of great value in analyses of the measured samples. The simulation results showed that these methods are effective.展开更多
In this paper, transient stability analysis was focused on Hu-Liao HVDC and AC parallel transmission system. The Hu-Liao HVDC project was introduced;Simulation method and mathematic models of AC and DC systems were st...In this paper, transient stability analysis was focused on Hu-Liao HVDC and AC parallel transmission system. The Hu-Liao HVDC project was introduced;Simulation method and mathematic models of AC and DC systems were stu-died as well as corresponding regulators and controllers. The dynamic performance and the interaction between AC and DC systems during serious disturbance were researched by detail time-domain simulation. Comparison was also made under different operation schemes. The research will bring important and significant reference for further operation and stability control of Hu-Liao HVDC and AC system.展开更多
This paper presents a mathematical model to calculate transients in grounding systems. The derived equations arise from direct application of basic electromagnetic equations in frequency domain, whose solution is obta...This paper presents a mathematical model to calculate transients in grounding systems. The derived equations arise from direct application of basic electromagnetic equations in frequency domain, whose solution is obtained by the application of the Moment Methods. A formulation based on experimental measurements is applied to quantify the soil parameters for each frequency. The unified approach is applied in the calculation of the grounding impedance of horizontal electrodes. Results show that the inclusion of frequency dependence of the soil parameters leads to a reduction of the values of grounding impedance, in comparison with results for soils with parameters independent of frequency.展开更多
研究了同群光伏系统等值建模的原理和特点,针对倍乘等值方法的不足,提出一种基于变流器输入阻抗不变的聚合等值方法。以某典型光伏系统为例,在实时数字仿真系统(real time digital simulation system, RTDS)中分别搭建了30台参数相同的1...研究了同群光伏系统等值建模的原理和特点,针对倍乘等值方法的不足,提出一种基于变流器输入阻抗不变的聚合等值方法。以某典型光伏系统为例,在实时数字仿真系统(real time digital simulation system, RTDS)中分别搭建了30台参数相同的1 MW光伏多机参考模型、1台30 MW光伏倍乘模型和1台30 MW光伏聚合模型。通过仿真试验,比对这3个模型在光伏系统公共并网点(point of common coupling, PCC)的故障穿越、有功阶跃、频率偏移等暂态特性及阻抗频率特性。结果表明,3个模型的暂态特性基本相同,倍乘模型与参考模型的阻抗频率特性有明显差异,而聚合模型与参考模型的阻抗频率特性高度一致。展开更多
文摘A time-dependent finite element method (FEM) is developed to analyze the transient hydroelastic responses of very large floating structures (VLFS) subjected to dynamic loads. The hydrodynamic problem is formulated based on the linear theory of fluid and the structural response is analyzed based on the thin plate theory. The FEM truncates the unbounded fluid domain by introducing an artificial boundary surface, thus defining a finite computational domain. At this boundary surface an impedance boundary conditions are applied so that no wave reflections occur. In the proposed scheme, all of the procedures are processed directly in time domain, which is efficient for nonlinear analyses of structure floating on unbounded fluid. Numerical results indicate acceptable accuracy of the proposed method.
文摘All step-by-step integration methods available at present for structural dynamic analysis use the displacement, velocity, and acceleration vectors computed at a previous interval for evaluating those at an advanced time step. Hence, an accumulated error will be definitely introduced after such integration. This paper presents a novel time-domain-advance integration method for transient elastodynamic problems in which the exact initial conditions are strictly satisfied for the solutions for each time step. In this way, the accumu- lated error can be eliminated and the approximate solutions will converge to the exact ones uniformly on the whole time domain. Therefore. the new method is more accurate. When applying to a structural dynamic problem, the present mehtod does not have to use the initial acceleration as is required by most other algorithms and the corresponding computation can be avoided. The present method is simple in representation, easy to be programmed, and especially suitable for accurate analyses of long-time problems. The comparison of numerical results with exact ones shows that the present method is much more accurate than some most widely used algorithms.
文摘The hidden water-bearing structures near the roadway tunnelling face are very likely to cause water seepage accidents in coal mines.Currently,transient electromagnetic(EM)technology has be-come an important method to detect water damage in advance of roadway excavation.In this paper,the time-domain finite element algorithm based on unstructured tetrahedron grids is used to accurate-ly simulate the geological body in front of the roadway excavation face and analyze its response.The authors detect the distance between the roadway excavation face and the low-resistivity water-bearing body,the resistivity difference between the low-resistivity body and surrounding rock,and the influence of the size of the low-resistivity body on the transient EM response.Furthermore,the common types of low-resistivity bodies in the roadway drivage process are used for modeling to analyze the attenuation of the detected EM response when there are low-resistivity bodies in front of the roadway.The research in this paper can help effectively detecting the water-bearing low-resistivity body in front of the roadway drivage and lay a foundation for reducing the risk of water seepage accidents.
文摘新能源并网逆变器的自同步电压源控制技术对构建以新能源为主体的新型电力系统具有重大意义,然而当弱电网电压发生跌落时,传统的自同步控制方法在低电压穿越(low voltage ride through,LVRT)过程中会出现由于电网阻抗大、相角差大等引起的瞬态电流冲击大、弱电网电压无法维持稳定、电压-电流控制能力须相互平衡等一系列问题。推导了低电压跌落时弱电网电压矢量与弱电网阻抗、并网电流之间的关系以及影响因素,进而提出了一种基于暂稳态阻抗重塑的多状态跟随自同步电压源LVRT控制方法,通过稳态阻抗来平衡电压和电流之间的控制能力;通过暂态阻抗重塑保证了整个过程的电压与电流瞬态控制与平滑过渡能力。为了进一步保证弱网下跌落和恢复过渡过程的平滑切换与稳定运行,提出了基于多状态跟随的暂态控制策略,优先发出无功支撑电网电压,并补偿相角和幅值突变带来的瞬态过电压和过电流冲击,帮助电网电压平稳过渡。最后,在Matlab/Simulink中验证了所提控制方法的正确性与有效性。
文摘Characteristic analysis of transient electromagnetic disturbance data is very important. In this paper, the time-domain and frequency-domain characteristics of transient electromagnetic disturbance caused by switching operations in substations are analyzed. Two methods are adopted in time-domain analysis. One method is histogram and the other one is normality test. An appropriate procedure for the normality test is proposed. Furthermore, the method used in frequency- domain analysis is to obtain overall envelope. These statistical characteristic analysis methods are showed to be of great value in analyses of the measured samples. The simulation results showed that these methods are effective.
文摘In this paper, transient stability analysis was focused on Hu-Liao HVDC and AC parallel transmission system. The Hu-Liao HVDC project was introduced;Simulation method and mathematic models of AC and DC systems were stu-died as well as corresponding regulators and controllers. The dynamic performance and the interaction between AC and DC systems during serious disturbance were researched by detail time-domain simulation. Comparison was also made under different operation schemes. The research will bring important and significant reference for further operation and stability control of Hu-Liao HVDC and AC system.
基金financial support provided by Energetic Company of Minas Gerais(CE-MIG)
文摘This paper presents a mathematical model to calculate transients in grounding systems. The derived equations arise from direct application of basic electromagnetic equations in frequency domain, whose solution is obtained by the application of the Moment Methods. A formulation based on experimental measurements is applied to quantify the soil parameters for each frequency. The unified approach is applied in the calculation of the grounding impedance of horizontal electrodes. Results show that the inclusion of frequency dependence of the soil parameters leads to a reduction of the values of grounding impedance, in comparison with results for soils with parameters independent of frequency.
文摘研究了同群光伏系统等值建模的原理和特点,针对倍乘等值方法的不足,提出一种基于变流器输入阻抗不变的聚合等值方法。以某典型光伏系统为例,在实时数字仿真系统(real time digital simulation system, RTDS)中分别搭建了30台参数相同的1 MW光伏多机参考模型、1台30 MW光伏倍乘模型和1台30 MW光伏聚合模型。通过仿真试验,比对这3个模型在光伏系统公共并网点(point of common coupling, PCC)的故障穿越、有功阶跃、频率偏移等暂态特性及阻抗频率特性。结果表明,3个模型的暂态特性基本相同,倍乘模型与参考模型的阻抗频率特性有明显差异,而聚合模型与参考模型的阻抗频率特性高度一致。