Power System Fault Chain Simulation Model Considering the Effect of Geomagnetic Storm

2019 ◽  
Author(s):  
Xiaoning Kang ◽  
Yini Xu ◽  
Yagang Zhang
Keyword(s):  
Power System ◽  
Simulation Model ◽  
Geomagnetic Storm

Influence Assessment of UHV Project on Jiangxi Power Grid

2014 ◽  
Vol 960-961 ◽  
pp. 1029-1033
Author(s):  
Yong Chun Su ◽  
Kai Xuan Chang
Keyword(s):  
Power System ◽  
Simulation Model ◽  
Power Transmission ◽  
Power Grid ◽  
Low Frequency ◽  
System Stability ◽  
Energy Structure ◽  
Low Frequency Oscillation ◽  
Structure Transition ◽  
Speed Up

In order to face the challenge of our economy and the environment, it is needed to speed up the energy structure transition and UItra High voltage (UHV) transmission has become an inevitable choice. Researches on the influence of UHV project to Jiangxi power grid are carried out in this paper. Using advanced digital power system simulator (ADPSS), the real-time simulation model of Jiangxi power grid is build up including the UHV project. Based on the simulation model, the problem of low frequency oscillation in Jiangxi power system is studied after the UHV power transmission project accessed. The influence of the UHV transmission line faults on system stability of Jiangxi grid is also researched.

scholarly journals Design of Microgrid Protection Schemes Using PSCAD/EMTDC and ETAP Programs

Energies ◽  
2020 ◽  
Vol 13 (21) ◽  
pp. 5784 ◽  
Author(s):  
Hyun Shin ◽  
Sang Heon Chae ◽  
Eel-Hwan Kim
Keyword(s):  
Power System ◽  
Simulation Model ◽  
Computer Aided Design ◽  
Storage System ◽  
Circuit Breaker ◽  
Small Scale ◽  
Distributed Resources ◽  
Protective Relay ◽  
Detailed Simulation ◽  
Switching Devices

Steady-state, harmonics, and transient analysis of a power system by using a detailed simulation model is essential to microgrid operation before the installation of new power facilities, because the microgrid, which is a small-scale independent power grid consisting of distributed resources and an energy storage system, has no choice but to include many inverters consisting of switching devices. Accordingly, in the case of an accident in a microgrid system, various power system simulation tools must be used to calculate the fault current for grid protection components. Specifically, Modelling using Power System Computer Aided Design (PSCAD)/Electro-Magnetic Transient Design and Control (EMTDC) can perform detailed modeling of switching devices into each inverter, and Electrical Transient Analyzer Program (ETAP) can design protection relays. From this perspective, this study designed whole protection components in a microgrid system, including the capacity of switching devices for fault ride through a protective relay and the capacity of the circuit breaker. The parameters of an actual microgrid on the San Cristobal Island, Galapagos, were used to make a detailed simulation model in both PSCAD/EMTDC and ETAP. The capacities of the switching devices were estimated by using PSCAD/EMTDC. Additionally, the rated breaking capacities and the setting values of the protective relay were also calculated from the result of an ETAP simulation.

Possibility of Four-Phase Grids Application in Russian Power System

2015 ◽  
Vol 799-800 ◽  
pp. 1206-1210
Author(s):  
Dmitry I. Bliznyuk ◽  
Alexandra I. Khalyasmaa
Keyword(s):  
Economic Analysis ◽  
Power System ◽  
Simulation Model ◽  
Russian Federation ◽  
High Voltage ◽  
Power Grid ◽  
Operation And Maintenance ◽  
Electrical Grids ◽  
United Power System ◽  
Extra High Voltage

This paper is devoted to four-phase electrical grids of high and extra-high voltage, principles of its formation and its possible operation and maintenance in united power system of Russia. Development of new simulation model of four-phase power grid for further realization in software is under consideration. Special attention is given to compliance with present both technical and economical requirements of this model in Russian Federation. Economic analysis of four-phase power system applying is done by means of comparison of different kinds of transmission Ural – Siberia.

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