Overcurrent limiting in grid-forming inverters: A comprehensive review and discussion
Grid-forming (GFM) inverters are increasingly recognized as a solution to facilitate massive
grid integration of inverter-based resources and enable 100% power-electronics-based …
grid integration of inverter-based resources and enable 100% power-electronics-based …
Navigating the landscape of deep reinforcement learning for power system stability control: A review
The widespread penetration of inverter-based resources has profoundly impacted the
electrical stability of power systems (PSs). Deepening grid integration of photovoltaic and …
electrical stability of power systems (PSs). Deepening grid integration of photovoltaic and …
Continuous estimation of power system inertia using convolutional neural networks
Inertia is a measure of a power system's capability to counteract frequency disturbances: in
conventional power networks, inertia is approximately constant over time, which contributes …
conventional power networks, inertia is approximately constant over time, which contributes …
[PDF][PDF] Data-driven control based on the behavioral approach: From theory to applications in power systems
Behavioral systems theory decouples the behavior of a system from its representation. A key
result is that, under a persistency of excitation condition, the image of a Hankel matrix …
result is that, under a persistency of excitation condition, the image of a Hankel matrix …
An improved photovoltaic power reserve control with rapid real-time available power estimation and drift avoidance
The main challenges in designing the power reserve control (PRC) lie in the rapid
estimation of the maximum available power () in real time and effective drift avoidance under …
estimation of the maximum available power () in real time and effective drift avoidance under …
Envisioning the Future Renewable and Resilient Energy Grids–A Power Grid Revolution Enabled by Renewables, Energy Storage, and Energy Electronics
Today's power grids are facing tremendous challenges because of the ever-increasing
power demand, system complexity, infrastructure cost, knowledge base, and policy and …
power demand, system complexity, infrastructure cost, knowledge base, and policy and …
Assessment and mitigation of multi-mode oscillations in wind-solar hybrid multi-microgrids
Multi-microgrids (MMGs) provide an effective solution for further improving the overall
economy and ensuring resilience under major disasters, while high penetration level of …
economy and ensuring resilience under major disasters, while high penetration level of …
Synchronization stability of grid-following VSC considering interactions of inner current loop and parallel-connected converters
In the grid-following (GFL) voltage source converter (VSC), the synchronization process of
phase-locked loop (PLL) can be seriously affected by the interactions from the inner current …
phase-locked loop (PLL) can be seriously affected by the interactions from the inner current …
Issues and challenges of grid-following converters interfacing renewable energy sources in low inertia systems: A review
The integration of renewable energy sources (RESs) is a key objective for energy sector
decision-makers worldwide, aiming to establish renewable-rich future power grids …
decision-makers worldwide, aiming to establish renewable-rich future power grids …
Synchronization stability of power-grid-tied converters
Synchronization stability is one of central problems in power systems, and it is becoming
much more complicated with the high penetration of renewable energy and power …
much more complicated with the high penetration of renewable energy and power …