Your search keyword '"new-generation synchronous condenser"' showing total 3 results

1. Construction of an example system for AC/DC hybrid power grid with high-proportion renewable energy

Author

Dawei Zhao, Jin Ma, Minhui Qian, Lingzhi Zhu, Liangzhong Yao, Kun Ding, and Hualing Han

Subjects

hybrid power systems, synchronous generators, HVDC power transmission, load flow, solar power, power grids, power system transient stability, wind power, AC/DC hybrid power grid, high-proportion renewable energy, solar power generations, simplified single-machine infinite-bus system, practical renewable energy base, new-generation synchronous condenser, installed power generation, power grid structure, load flow distribution, transient stability characteristics, load configuration, UHVDC project, load centres, wind power generations, high-voltage direct current transmission, DIgSILENT PowerFactory software, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Large-scale wind and solar power generations have got rapid development in recent years in China and abroad. They always connect to load centres through high-voltage direct current (HVDC) transmission or ultra HVDC (UHVDC) transmission lines. Such systems are so large and it is necessary to make appropriate equivalence according to the purpose of different research. At present, the analysis model of this kind of real system is few, and simplified single-machine infinite-bus system or IEEE example system is adopted most of the time, which may affect the accuracy of analysis results. Here, the UHVDC project from a practical renewable energy base to load centres in China is chosen as an example, the actual structure and parameters are used to establish a typical example system for AC/DC hybrid power grid with high-proportion renewable energy. The new-generation synchronous condenser with large capacity and the supporting synchronous generators are all considered. First, the installed power generation, power grid structure, and load configuration of example system are introduced. Then the load flow distribution and transient stability characteristics are analysed by using DIgSILENT PowerFactory software. Finally, the feasibility of the proposed example system is shown by simulation results.

Published

2019

2. Construction of an example system for AC/DC hybrid power grid with high-proportion renewable energy.

Author

Zhao, Dawei, Ma, Jin, Qian, Minhui, Zhu, Lingzhi, Yao, Liangzhong, Ding, Kun, and Han, Hualing

Subjects

ALTERNATING currents, DIRECT current generators, RENEWABLE energy sources, SOLAR energy, WIND power

Abstract

Large-scale wind and solar power generations have got rapid development in recent years in China and abroad. They always connect to load centres through high-voltage direct current (HVDC) transmission or ultra HVDC (UHVDC) transmission lines. Such systems are so large and it is necessary to make appropriate equivalence according to the purpose of different research. At present, the analysis model of this kind of real system is few, and simplified single-machine infinite-bus system or IEEE example system is adopted most of the time, which may affect the accuracy of analysis results. Here, the UHVDC project from a practical renewable energy base to load centres in China is chosen as an example, the actual structure and parameters are used to establish a typical example system for AC/DC hybrid power grid with high-proportion renewable energy. The new-generation synchronous condenser with large capacity and the supporting synchronous generators are all considered. First, the installed power generation, power grid structure, and load configuration of example system are introduced. Then the load flow distribution and transient stability characteristics are analysed by using DIgSILENT PowerFactory software. Finally, the feasibility of the proposed example system is shown by simulation results. [ABSTRACT FROM AUTHOR]

Published

2019

3. Construction of an example system for AC/DC hybrid power grid with high‐proportion renewable energy

Author

Jin Ma, Lingzhi Zhu, Dawei Zhao, Minhui Qian, Kun Ding, Han Hualing, and Liangzhong Yao

Subjects

Computer science, 020209 energy, solar power, Energy Engineering and Power Technology, power grid structure, load flow distribution, 02 engineering and technology, DIgSILENT PowerFactory software, load centres, Automotive engineering, high-proportion renewable energy, load configuration, new-generation synchronous condenser, 0202 electrical engineering, electronic engineering, information engineering, UHVDC project, high-voltage direct current transmission, Solar power, Wind power, practical renewable energy base, business.industry, installed power generation, 020208 electrical & electronic engineering, General Engineering, HVDC power transmission, power grids, wind power, Grid, solar power generations, Renewable energy, transient stability characteristics, Electric power transmission, Electricity generation, AC/DC hybrid power grid, lcsh:TA1-2040, Synchronous condenser, load flow, power system transient stability, hybrid power systems, simplified single-machine infinite-bus system, synchronous generators, wind power generations, Hybrid power, lcsh:Engineering (General). Civil engineering (General), business, Software

Abstract

Large-scale wind and solar power generations have got rapid development in recent years in China and abroad. They always connect to load centres through high-voltage direct current (HVDC) transmission or ultra HVDC (UHVDC) transmission lines. Such systems are so large and it is necessary to make appropriate equivalence according to the purpose of different research. At present, the analysis model of this kind of real system is few, and simplified single-machine infinite-bus system or IEEE example system is adopted most of the time, which may affect the accuracy of analysis results. Here, the UHVDC project from a practical renewable energy base to load centres in China is chosen as an example, the actual structure and parameters are used to establish a typical example system for AC/DC hybrid power grid with high-proportion renewable energy. The new-generation synchronous condenser with large capacity and the supporting synchronous generators are all considered. First, the installed power generation, power grid structure, and load configuration of example system are introduced. Then the load flow distribution and transient stability characteristics are analysed by using DIgSILENT PowerFactory software. Finally, the feasibility of the proposed example system is shown by simulation results.

Published

2018