Evaluating the impact of Khanh Son power plant on Danang Distribution Network
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Thi Minh Tu Bui
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Nam Khoa Le
Abstract
Today, the expansion of power sources is the main task to meet the development of demand. Therefore, Da Nang City has been approved to build the Khanh Son waste incineration power plant in the near future. The Khanh Son power plant project not only helps to reduce a large amount of waste in the area but also provides electricity supply directly to the city, increasing the budget for that locality. However, the connection of this power plant to the system will modify the operating parameters of the grid which may cause some negative impact on the regional power system. Therefore, the main aim of this paper is to simulate various operation modes of the system such as steady-state mode, short circuits, and transient to evaluate the impact of the connection of the new power plant on the national power. The result shows that the Khanh Son power plant helps to reduce the overload of the main cable during the high load scenario, the stability of the system is enhanced significantly. Based on the simulation results, some recommendations to ensure the stabilizing of the grid have been proposed as well.
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Author contributions: All the authors have accepted responsibility for the entire content of this submitted manuscript and approved submission.
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Research funding: None declared.
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Conflict of interest statement: The authors declare no conflicts of interest regarding this article.
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© 2021 Walter de Gruyter GmbH, Berlin/Boston
Artikel in diesem Heft
- Frontmatter
- Research Articles
- Solving realistic reactive power market clearing problem of wind-thermal power system with system security
- A novel methodology for power loss allocation of both passive and active power distribution systems
- A simple network reduction technique for large autonomous microgrids incorporating an efficient reactive power sharing
- An adaptive, observer-based switching method for B4 inverters feeding three-phase induction motors
- Analysis and evaluation of two short-term load forecasting techniques
- Power quality improvement in a photovoltaic based microgrid integrated network using multilevel inverter
- Comparison between flexible AC transmission systems (FACTs) and filters regarding renewable energy systems harmonics mitigation
- Evaluating the impact of Khanh Son power plant on Danang Distribution Network
- Fast valving automation setting using HRTSim
- Mathematical modeling of polymer dielectric strength considering filling concentration
- Special action on high quality development of renewable energy in Northeast China: market implementation initiatives and suggestions
- Coordinated power management and control of renewable energy sources based smart grid
Artikel in diesem Heft
- Frontmatter
- Research Articles
- Solving realistic reactive power market clearing problem of wind-thermal power system with system security
- A novel methodology for power loss allocation of both passive and active power distribution systems
- A simple network reduction technique for large autonomous microgrids incorporating an efficient reactive power sharing
- An adaptive, observer-based switching method for B4 inverters feeding three-phase induction motors
- Analysis and evaluation of two short-term load forecasting techniques
- Power quality improvement in a photovoltaic based microgrid integrated network using multilevel inverter
- Comparison between flexible AC transmission systems (FACTs) and filters regarding renewable energy systems harmonics mitigation
- Evaluating the impact of Khanh Son power plant on Danang Distribution Network
- Fast valving automation setting using HRTSim
- Mathematical modeling of polymer dielectric strength considering filling concentration
- Special action on high quality development of renewable energy in Northeast China: market implementation initiatives and suggestions
- Coordinated power management and control of renewable energy sources based smart grid
