Power system oscillations and control: Classifications and PSSs' design methods: A review
In this paper, a review of the classifications of power system oscillation modes, as well as
power system stabilizer (PSS) design structures, is proposed. Four major oscillation modes …
power system stabilizer (PSS) design structures, is proposed. Four major oscillation modes …
Potential of data centers for fast frequency response services in synchronously isolated power systems
Grid frequency support is one of the most challenging issues in wind rich islanded power
systems. This problem becomes critical with the displacement of synchronous generators …
systems. This problem becomes critical with the displacement of synchronous generators …
A mode-adaptive power-angle control method for transient stability enhancement of virtual synchronous generators
The virtual synchronous generator (VSG) is emerging as an attractive solution for
interconnecting converter-based resources with the power grid. However, due to the …
interconnecting converter-based resources with the power grid. However, due to the …
Synchrophasor measurement technology in power systems: Panorama and state-of-the-art
Phasor measurement units (PMUs) are rapidly being deployed in electric power networks
across the globe. Wide-area measurement system (WAMS), which builds upon PMUs and …
across the globe. Wide-area measurement system (WAMS), which builds upon PMUs and …
Modeling of time-delayed distributed cyber-physical power systems for small-signal stability analysis
Compared with a power system under centralized control, a power system under fully
distributed control has stronger interdependence between its physical side and cyber side …
distributed control has stronger interdependence between its physical side and cyber side …
Delay-tolerant predictive power compensation control for photovoltaic voltage regulation
Voltage regulation is imperative for the successful operation of electricity distribution
networks, especially with a high penetration level of photovoltaic (PV) systems. Power …
networks, especially with a high penetration level of photovoltaic (PV) systems. Power …
Design of a reduced-order WADC for wind turbine system-integrated power system
The impact of wind turbine system (WTS) on power system stability is elaborately addressed
in the literature. However, low-frequency oscillations, especially inter-area oscillations …
in the literature. However, low-frequency oscillations, especially inter-area oscillations …
Delay-dependent stability control for power system with multiple time-delays
J Li, Z Chen, D Cai, W Zhen… - IEEE Transactions on …, 2015 - ieeexplore.ieee.org
Time-delay exists widely in electric power systems, and is found to have significant effect on
the performance of operation and control under certain conditions. It is shown that even a …
the performance of operation and control under certain conditions. It is shown that even a …
Large-scale solar pv converter based robust wide-area damping controller for critical low frequency oscillations in power systems
Integration of large-scale renewable energy sources in legacy power system has negative
impact on inertia and low-frequency oscillations (LFOs). Critical LFO modes are the primary …
impact on inertia and low-frequency oscillations (LFOs). Critical LFO modes are the primary …
Active frequency response based on model predictive control for bulk power system
C Jin, W Li, J Shen, P Li, L Liu… - IEEE Transactions on …, 2019 - ieeexplore.ieee.org
To solve frequency stability problems caused by the high-power loss of ultra-high voltage
faults and the high penetration levels of renewable energy, a method of active frequency …
faults and the high penetration levels of renewable energy, a method of active frequency …