2020 IEEE 7th International Conference on Energy Smart Systems (ESS) 2020
DOI: 10.1109/ess50319.2020.9160281
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Optimal Settings of Fast Active Power Controller: Nordic Case

Abstract: The Nordic power system is continuously changing, and it has been experiencing a growing replacing of conventional power plants with renewable power plants, this together with other factors are causing reduction of the total inertia of the Nordic power system. The application of technologies that emulates the dynamic response of the synchronous generators has been a feasible solution. This paper focuses on finding the bests control adjustment of the fast-active power injection/absorption (FAPIA) model by using… Show more

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Cited by 9 publications
(6 citation statements)
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“…The main interest is the performance of the voltage control mechanism in the quasi-dynamic voltage profile of the regional TSO-DO power networks in the South-Eastern part of Norway. The equivalent TSO consists of a detailed high-level representation of the regional 132-kV system, Telemark and Vestfold area [11], [30]. The DSO network is created [11] in order to represent the main feature of the 11 kV distribution system.…”
Section: Modelling and Simulation Descriptionmentioning
confidence: 99%
“…The main interest is the performance of the voltage control mechanism in the quasi-dynamic voltage profile of the regional TSO-DO power networks in the South-Eastern part of Norway. The equivalent TSO consists of a detailed high-level representation of the regional 132-kV system, Telemark and Vestfold area [11], [30]. The DSO network is created [11] in order to represent the main feature of the 11 kV distribution system.…”
Section: Modelling and Simulation Descriptionmentioning
confidence: 99%
“…However, the operative limits of the synchronous generators and the fact the reactive power control must be locally made to avoid significant energy losses and affect the voltage profile led to introduce dedicated devices to provide reactive power regulation. These devices include synchronous condensers, mechanically switched shunt capacitors/reactors, flexible AC transmission system devices (e.g., thyristor-controlled series capacitor and static VAR compensator), phase-shifting transformers, and transformers equipped with on-load tap changer (OLTC) [2,12]. Although these devices demonstrate effective reactive power injection/absorption when needed and maintain the voltage within its operational limits, the cost of its implementation can result economically ineffective [13].…”
Section: Reactive Power Control Mechanisms At Smart Invertersmentioning
confidence: 99%
“…Nowadays, power system (PS) frequency and rate of change frequency (RoCoF) are growingly essential concepts for load management, protection and system control [1]. Ideally, it is desired to have error-free and noise data that is available with minimal delay [2]. This is not the case in real PS, because the frequency and RoCoF measurement are sensitive to noise and disturbances in the electrical system.…”
Section: Introductionmentioning
confidence: 99%