[HTML][HTML] Smart grid evolution: Predictive control of distributed energy resources—A review
As the smart grid evolves, it requires increasing distributed intelligence, optimization and
control. Model predictive control (MPC) facilitates these functionalities for smart grid …
control. Model predictive control (MPC) facilitates these functionalities for smart grid …
An overview of stability challenges for power‐electronic‐dominated power systems: The grid‐forming approach
B Shakerighadi, N Johansson… - IET Generation …, 2023 - Wiley Online Library
Inverter‐based generators (IBGs) are becoming popular in modern power systems. When
the penetration of IBGs is increasing in power systems, new stability, protection, and …
the penetration of IBGs is increasing in power systems, new stability, protection, and …
Distributed secondary frequency and voltage control of parallel-connected vscs in microgrids: A predictive VSG-based solution
O Babayomi, Z Li, Z Zhang - CPSS Transactions on Power …, 2020 - ieeexplore.ieee.org
The need for converter-based synthetic inertia has become more important due to the
increasing level of renewable generation penetration in power systems. In this paper, the …
increasing level of renewable generation penetration in power systems. In this paper, the …
Reinforcement learning for optimal primary frequency control: A Lyapunov approach
As more inverter-connected renewable resources are integrated into the grid, frequency
stability may degrade because of the reduction in mechanical inertia and damping. A …
stability may degrade because of the reduction in mechanical inertia and damping. A …
Centralized model predictive control for transient frequency control in islanded inverter-based microgrids
Grid-forming inverters can establish frequency and voltage regulation in autonomous
microgrids by themselves without relying on the external grid and as such are significant …
microgrids by themselves without relying on the external grid and as such are significant …
Multi-area power system load frequency control by using model predictive control by introducing renewable energy sources
L Liu, T Kato, P Mandal, A Mikhaylov… - … on science & …, 2021 - ieeexplore.ieee.org
In this work, we had proposed a load frequency control scheme by applying Model
Predictive Control (MPC) in a three-area isolated power system, which including thermal …
Predictive Control (MPC) in a three-area isolated power system, which including thermal …
Control systems for low-inertia power grids: A survey on virtual power plants
Virtual Power Plants (VPPs) have emerged as a modern real-time energy management
architecture that seeks to synergistically coordinate an aggregation of renewable and non …
architecture that seeks to synergistically coordinate an aggregation of renewable and non …
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 dynamics-constrained method for distributed frequency regulation in low-inertia power systems
An increasing number of power electronics-interfaced renewable energy sources are
integrated into the power grids. Such power systems suffer from poor frequency dynamic …
integrated into the power grids. Such power systems suffer from poor frequency dynamic …
Optimization-based fast-frequency estimation and control of low-inertia microgrids
The lack of inertial response from non-synchronous, inverter-based generation in microgrids
makes the power system vulnerable to a large rate of change of frequency (ROCOF) and …
makes the power system vulnerable to a large rate of change of frequency (ROCOF) and …