TY - GEN
T1 - Study on the Use of Virtual Synchronous Generators to Improve Large Scale System's Stability
AU - Li, Diya
AU - Sitompul, Sandro
AU - Fujita, Goro
N1 - Publisher Copyright:
© 2021 IEEE.
PY - 2021
Y1 - 2021
N2 - influence of environmental problems and resource exhaustion problems, the method of applying distributed generation in power systems is gradually being widely used. However, in large-scale interconnected power systems, low-frequency vibrations caused by mechanical vibrations of power devices and disturbances in a certain system will affect other modules connected in the same system, thereby affecting the stability of the entire power system. In order to eliminate this kind of inter-regional influence, maintain the stability of the power system. This paper attempts to design a control method based on VSG. VSG is often used in power systems where there are distributed power sources such as solar power generation for renewable energy generation. Because this kind of distributed power source does not have the same inertia as the synchronous generator, so when the system is disturbed, the overall stability of the system will deteriorate, and the VSG has the ability to track the maximum power point, which can make this type of distributed generation have the same inertia as the synchronous generator. When the stability of the small system changes, the overall system can still remain stable. This article will focus on the effect of the VSG on the transient stability of the large-scale system. Through the establishment of a simulation model, and verify that the whole system can keep stable due to the function of VSG when fault or disturbances occur in the system.
AB - influence of environmental problems and resource exhaustion problems, the method of applying distributed generation in power systems is gradually being widely used. However, in large-scale interconnected power systems, low-frequency vibrations caused by mechanical vibrations of power devices and disturbances in a certain system will affect other modules connected in the same system, thereby affecting the stability of the entire power system. In order to eliminate this kind of inter-regional influence, maintain the stability of the power system. This paper attempts to design a control method based on VSG. VSG is often used in power systems where there are distributed power sources such as solar power generation for renewable energy generation. Because this kind of distributed power source does not have the same inertia as the synchronous generator, so when the system is disturbed, the overall stability of the system will deteriorate, and the VSG has the ability to track the maximum power point, which can make this type of distributed generation have the same inertia as the synchronous generator. When the stability of the small system changes, the overall system can still remain stable. This article will focus on the effect of the VSG on the transient stability of the large-scale system. Through the establishment of a simulation model, and verify that the whole system can keep stable due to the function of VSG when fault or disturbances occur in the system.
KW - Transient Stability
KW - Virtual synchronous Generator
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U2 - 10.1109/ICHVEPS53178.2021.9601049
DO - 10.1109/ICHVEPS53178.2021.9601049
M3 - Conference contribution
AN - SCOPUS:85123168966
T3 - 2021 3rd International Conference on High Voltage Engineering and Power Systems, ICHVEPS 2021
SP - 367
EP - 371
BT - 2021 3rd International Conference on High Voltage Engineering and Power Systems, ICHVEPS 2021
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 3rd International Conference on High Voltage Engineering and Power Systems, ICHVEPS 2021
Y2 - 5 October 2021 through 6 October 2021
ER -