1)transient simulation暂态仿真
1.Modified quasi steady state model of converters in transient simulation of hybrid AC/DC systems;交直流系统暂态仿真中换流器的改进准稳态模型
2.Study and Application on Huge Hydro Generator Internal Fault Transient Simulation and Optimized Main Protection Scheme;大型水轮发电机故障暂态仿真及主保护优化的研究与应用
3.Research on Transient Simulation of Current Transformer;电流互感器暂态仿真系统的研究
英文短句/例句
1.The transient state emulate of large generator stator neutral grounding schemes;大型发电机定子中性点接地暂态仿真
2.Transient Simulation of Short-Circuit Currents in DC Traction Power Supply System直流牵引供电系统短路电流暂态仿真
3.Progresses on Algorithm of Electromagnetic Transient Simulation for Electric Power System电力系统电磁暂态仿真算法研究进展
4.Simulation of the Series Compensated Power Grids and Analysis on Protective Relay Characteristics;可控串补电网故障暂态仿真及保护性能分析
5.Transient Simulation and Analysis of Impendence-matched Balancing Transformer;阻抗匹配平衡变压器的暂态仿真与分析
6.The Study of the Transient Simulation of the Current Transformer for Rapid Digital Protection;快速数字保护用电流互感器的暂态仿真研究
7.The Calculation and Research of Electromagnetic Transient Simulation for Frequency-dependent Transmission Lines;频变传输线的电磁暂态仿真计算与研究
8.Electromagnetic Transient Simulation and Test and Analysis of Wu Hai Electric Network Based on DDRTS (Digital Dynamic Real-Time Simulator);基于DDRTS的乌海电网电磁暂态仿真测试与分析
9.Electromechanical-Electromagnetic Transient Digital Hybrid Simulation in Power System电力系统机电暂态和电磁暂态数字混合仿真
10.Application of PSAT in Power System Transient Stability SimulationPSAT在电力系统暂态稳定仿真中的应用
11.Numerical Simulation Analysis of Transient Stability of Electric Power System电力系统暂态稳定性的数值仿真研究
12.Automated electromagnetic transient simulation using ATP基于ATP的电磁暂态自动仿真程序
13.Study on Power System Electromechanical Transient and Electromagnetic Transient Hybrid Simulation;电力系统机电暂态和电磁暂态混合仿真技术的研究
14.Study of Power System Electromagnetic Transient and Electromechanical Transient Real-time Hybrid Simulation;电力系统电磁暂态与机电暂态混合实时仿真的研究
15.Implementation Electromechanical and Electromagnetic Hybrid Simulation for Power System Using PSCAD/EMTDC;基于PSCAD/EMTDC的电力系统机电暂态与电磁暂态混合仿真
16.Electromechanical and Electromagnetic Hybrid Simulation for Power System with Static Var Compensator;含静止无功补偿器电力系统机电暂态和电磁暂态混合仿真
17.The Study of Hybrid Simulation of Electromagnetic and Electro-mechanic Transients of Power System;电力系统电磁暂态与机电暂态程序的混合仿真研究
18.Grid-Based Transient Stability Analysis Using Dynamic Simulation in PSS/E;网格计算模式下的PSS/E暂态稳定仿真分析
相关短句/例句
dynamic simulation暂态仿真
1.While power systems are interconnected more closely and deregulated in electricity markets, distributed dynamic simulations among different dispatch centers are highly required for online full system analysis and control.分布式暂态仿真是实现市场环境下互联电力系统在线一体化仿真分析的有效途径。
3)electromechanical transient simulation机电暂态仿真
1.The authors conduct the real-time interface of electromechanical transient simulation with electromagnetic transient simulation, so in a once-through simulation the electromechanical transient simulation of large-scale power grid and the electromagnetic transient simulation of partial power network can by simultaneously implemented.将机电暂态计算与电磁暂态计算进行实时接口,在一次仿真过程中同时实现大规模电力系统的机电暂态仿真和局部网络的电磁暂态仿真。
2.Since the scale of electromagnetic transient simulation and the accuracy of electromechanical transient simulation can not meet the simulation requirement of modern power system containing HVDC and FACTS equipments,the issue of how to solve the problem of size,speed and accuracy in simulation by using hybrid simulation is studied.针对传统电磁暂态仿真规模不够和机电暂态仿真精度不足,难以满足含高压直流输电(HVDC)和灵活交流输电(FACTS)设备的现代电网的仿真需要,总结和归纳了基于两者的混合仿真如何解决仿真规模、速度和精度的问题。
4)electromagnetic transient simulation电磁暂态仿真
1.The authors conduct the real-time interface of electromechanical transient simulation with electromagnetic transient simulation, so in a once-through simulation the electromechanical transient simulation of large-scale power grid and the electromagnetic transient simulation of partial power network can by simultaneously implemented.将机电暂态计算与电磁暂态计算进行实时接口,在一次仿真过程中同时实现大规模电力系统的机电暂态仿真和局部网络的电磁暂态仿真。
2.This paper presents a physical-equivalence based reduction method for electromagnetic transient simulation of large-scale power systems.另外,本文从理论上证明了只要已知用于潮流计算的输电线路参数,则不管线路的真实长度如何,就能直接导出用于电磁暂态仿真的Bergeron模型。
3.Hypersim is a widely used and fully digital simulator with powerful functions and con-venient interfaces,which provides the fast,flexible and accurate electromagnetic transient simulation for the commutation failure study of HVDC system.Hypersim是一套功能强大、接口方便、适应性广的全数字实时仿真系统,它能为HVDC换相失败问题的研究提供快速、灵活和准确的电磁暂态仿真。
5)transient stability simulation暂态稳定仿真
1.A Research on the Decomposition and Coordination Transient Stability Simulation for Control Centers in Power Systems;电力系统多控制中心之间分解协调暂态稳定仿真计算的研究
2.To improve the precision of online transient stability simulation(TSS)it is necessary to improve the equivalent precision of external network.为提高在线暂态稳定仿真的精度,需要提高外网动态等值精度。
3.This thesis proposes a novel method for power system transient stability simulation based on the techniques of hierarchical tree model, which deal with contents of partitions among the electric power networks and describe the structure mathematical model in the simulation, bi-directional iteration,.本文提出一种新型快速电力系统暂态稳定仿真方法——基于树形层次模型和双向迭代技术的电力系统暂态稳定仿真方法。
6)Transient simulation model暂态仿真模型
延伸阅读
变电所快速暂态电磁场变电所快速暂态电磁场fast transient electro-magnetic fields in substations 变电所中快速暂态电磁场强度由于开关操作暂态过程受多种因素影响.因此变电所中实际测t得到的场强数值分散性较大。不同电压等级变电所,用不同型式开关,实测得到的电场强度可达数十千伏/米(kV/m).磁场强度可达数百安培/米(A/m).美国对变电所中操作暂态电磁场的实测工作做的较多。作为一个例子,下表列出了美国电力研究院(EPRI)在115kV、250 kV、500 kV变电所中的实测结果。常规变电所内测点在母线下方地面,操作是断开一段短母线,一川纵潮洲娜朋洲川一0 0 0 0 0 00411:1l)即10 010加 ︵任守︸侧欲典匆 6 .0臼.《】火l()《a)T(5、留一。·““nlj 0 50几00 .,0.1 10 (任/A艺侧蔽2.()魂.硬)丫﹂)()口匕t卜卜片卜f乙仁0 t 0 0 0 0 005 .....-卜闭40加020化 (‘/V)侧旧要翻,::.:: l二‘.1.吐吐.吐2.《)4.(】6 .0划) 了卜卜┌────┬──────┐│ 一一J │八L,‘一’ ││习 ├──────┤│一一.1 │{犷V一· │└────┴──────┘0﹃-j门1 96,JD.任1 9 tl滩n乙oq乙 ︵三z淤巴侧翻要御 (一。一‘)洲.‘}12‘)一6(,义1‘,一‘, 喊d)T(5) 500 kV变电所内断开隔离开关时 的地面电场和磁场(a)GIS磁场;(b)GIS电场;(e)AIS滋场;(d)AIS电场b一and一onsuo kuolsu zonto一d一onelehong变电所快速暂态电磁场(fast transient elec-tromagnetie fields in substations)变电所中隔离开关切、合短母线时的暂态过程产生的电磁场。高压隔离开关操作时,触头间产生一系列电弧过程。