A survey on microgrid flexibility resources, evaluation metrics and energy storage effects
One crucial requirement for power systems is the necessity to enhance flexibility, enabling
the seamless integration of a substantial amount of renewable energy generation. While …
the seamless integration of a substantial amount of renewable energy generation. While …
[HTML][HTML] Micro-flexibility: Challenges for power system modeling and control
This paper collects the challenges and opportunities that emerge from the millions of
controllable devices–and the micro-flexibility they offer–that are deployed across the …
controllable devices–and the micro-flexibility they offer–that are deployed across the …
Coordinated FRT Control for Paralleled Grid-Forming Converters with Enhanced Transient Stability and Current Control Flexibility
Grid-forming converters (GFMs) are faced with the threat of inrush current and sever
transient instability issues during grid faults, which calls for fault ride through (FRT) …
transient instability issues during grid faults, which calls for fault ride through (FRT) …
[HTML][HTML] Distributed flexibility to maintain security margin through decentralised TSO–DSO coordination
The increasing role of distribution networks as an active entity in the whole power and
energy system, development of a unified power flow method to provide an integrated …
energy system, development of a unified power flow method to provide an integrated …
Networked Multiagent-Based Safe Reinforcement Learning for Low-Carbon Demand Management in Distribution Networks
This paper proposes a multiagent-based bilevel operation framework for low-carbon
demand management in distribution networks considering the carbon emission allowance …
demand management in distribution networks considering the carbon emission allowance …
Stacking revenues from flexible DERs in multi-scale markets using tri-level optimization
Rapid proliferation of flexible Distributed Energy Resources (DERs) as a result of Net Zero
Emissions objectives entails a profound shift in the paradigm of local and national energy …
Emissions objectives entails a profound shift in the paradigm of local and national energy …
MILP model for optimal day-ahead PDS scheduling considering TSO-DSO interconnection power flow commitment under uncertainty
We propose a comprehensive framework for the optimal day-ahead scheduling of power
distribution systems (PDS), based on a mixed-integer linear programming (MILP) model …
distribution systems (PDS), based on a mixed-integer linear programming (MILP) model …
Distributed coordination of networked microgrids for voltage support in bulk power grids
The increasing deployment of distributed energy resources (DERs) and microgrids (MGs) in
power distribution systems has enabled the adjustment of reactive power consumption as …
power distribution systems has enabled the adjustment of reactive power consumption as …
ASP-DRL: A Novel Framework for Unifying IoTs Energy Usage Flexibilities Characterized by Neural Networks and Optimization Models
Managing energy usage flexibility has been identified as an effective way to coordinate
Internet of Things (IoT) technologies and transition to a low-carbon future. However, the …
Internet of Things (IoT) technologies and transition to a low-carbon future. However, the …
Distribution System Behind-the-Meter DERs: Estimation, Uncertainty Quantification, and Control
This paper summarizes the three-year technical activities of the IEEE Task Force (TF) on
behind-the-meter (BTM) distributed energy resources (DERs): estimation, uncertainty …
behind-the-meter (BTM) distributed energy resources (DERs): estimation, uncertainty …