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HyunWook Kim
School of Electrical Engineering, Korea University, Seoul 02841, Korea

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Journal article
Published: 25 April 2021 in Applied Sciences
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An increase in inverter-based resources (IBRs) can lower the inertia of a power system, which may adversely affect the power system by causing changes such as a frequency nadir reduction or an increased initial rate of change of frequency (RoCoF). To prevent this, an ancillary service called fast frequency response (FFR) helps the inertia response by using IBRs. The main resources used in FFR are variable-speed wind turbine generators (VSWTGs) or energy storage systems (ESSs), which can respond quickly through converter control. The control is applied to the frequency regulation service faster than the primary frequency response, so the second frequency nadir may fall below the first frequency nadir. This study proposed a novel coordinated control strategy to efficiently utilize energy to improve the frequency nadir through coordinated control of wind turbines based on permanent magnetic synchronous generators (PMSGs) and battery energy storage systems (BESSs). The simulation results confirmed that the two-bus test system was composed of PSCAD/EMTDC, and the frequency nadir increased by utilizing the same amount of energy as in traditional control systems.

ACS Style

HyunWook Kim; Junghun Lee; Jaehyeong Lee; Gilsoo Jang. Novel Coordinated Control Strategy of BESS and PMSG-WTG for Fast Frequency Response. Applied Sciences 2021, 11, 3874 .

AMA Style

HyunWook Kim, Junghun Lee, Jaehyeong Lee, Gilsoo Jang. Novel Coordinated Control Strategy of BESS and PMSG-WTG for Fast Frequency Response. Applied Sciences. 2021; 11 (9):3874.

Chicago/Turabian Style

HyunWook Kim; Junghun Lee; Jaehyeong Lee; Gilsoo Jang. 2021. "Novel Coordinated Control Strategy of BESS and PMSG-WTG for Fast Frequency Response." Applied Sciences 11, no. 9: 3874.

Journal article
Published: 04 November 2015 in Energies
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A system that combines a wind turbine and a wave generator can share the off-shore platform and therefore mix the advantages of the transmission system construction and the power conversion system. The current hybrid generation system considers output limitation according to the instructions of the transmission system operator (TSO), and controls the profile using wind turbine pitch control. However, the integrated wave generation system utilizing a DC network does not adapt a power limitation scheme due to its mechanical constraints. In this paper, a control plan focusing on the electrical section of wave generators is formed in order to effectively manage the output profile of the hybrid generation system. The plan pays attention to power reserve flexibility for the utility grid using the analysis of the controllable elements. Comparison with the existing system is performed based on real offshore conditions. With the help of power system computer aided design (PSCAD) simulation, the ability of the novel technique is estimated by proposing the real power control based on the reference signal of TSO and the reactive power capacity it produces.

ACS Style

Seungmin Jung; Yeuntae Yoo; HyunWook Kim; Jae-Hyeong Lee; MinHan Yoon; Gilsoo Jang. Development of an Active Power Reserve Management Method for DC Applied Wave-Wind Combined Generation Systems. Energies 2015, 8, 12488 -12504.

AMA Style

Seungmin Jung, Yeuntae Yoo, HyunWook Kim, Jae-Hyeong Lee, MinHan Yoon, Gilsoo Jang. Development of an Active Power Reserve Management Method for DC Applied Wave-Wind Combined Generation Systems. Energies. 2015; 8 (11):12488-12504.

Chicago/Turabian Style

Seungmin Jung; Yeuntae Yoo; HyunWook Kim; Jae-Hyeong Lee; MinHan Yoon; Gilsoo Jang. 2015. "Development of an Active Power Reserve Management Method for DC Applied Wave-Wind Combined Generation Systems." Energies 8, no. 11: 12488-12504.