Optimal power flow in distribution network: A review on problem formulation and optimization methods
Distributed generators (DGs) have a high penetration rate in distribution networks (DNs).
Understanding their impact on a DN is essential for achieving optimal power flow (OPF) …
Understanding their impact on a DN is essential for achieving optimal power flow (OPF) …
A survey of relaxations and approximations of the power flow equations
The power flow equations relate the power injections and voltages in an electric power
system and are therefore key to many power system optimization and control problems …
system and are therefore key to many power system optimization and control problems …
Blockchain for transacting energy and carbon allowance in networked microgrids
This paper proposes a blockchain application for transacting energy and carbon allowance
in networked microgrids (MGs). MGs submit trading energy and carbon allowance data to …
in networked microgrids (MGs). MGs submit trading energy and carbon allowance data to …
Stochastic optimization of economic dispatch for microgrid based on approximate dynamic programming
This paper proposes an approximate dynamic programming (ADP)-based approach for the
economic dispatch (ED) of microgrid with distributed generations. The time-variant …
economic dispatch (ED) of microgrid with distributed generations. The time-variant …
Distributionally robust chance-constrained approximate AC-OPF with Wasserstein metric
Chance constrained optimal power flow (OPF) has been recognized as a promising
framework to manage the risk from variable renewable energy (VRE). In the presence of …
framework to manage the risk from variable renewable energy (VRE). In the presence of …
Co-optimizing virtual power plant services under uncertainty: A robust scheduling and receding horizon dispatch approach
J Naughton, H Wang, M Cantoni… - IEEE Transactions on …, 2021 - ieeexplore.ieee.org
Market and network integration of distributed energy resources can be facilitated by their
coordination within a virtual power plant (VPP). However, VPP operation subject to network …
coordination within a virtual power plant (VPP). However, VPP operation subject to network …
A general formulation of linear power flow models: Basic theory and error analysis
Linear power flow models are widely used in power systems to simplify the nonlinear power
flow equations. The DC power flow model is one of the representatives. There are many …
flow equations. The DC power flow model is one of the representatives. There are many …
Data-driven power flow linearization: A regression approach
The linearization of a power flow (PF) model is an important approach for simplifying and
accelerating the calculation of a power system's control, operation, and optimization …
accelerating the calculation of a power system's control, operation, and optimization …
Optimal operation of regional microgrids with renewable and energy storage: Solution robustness and nonanticipativity against uncertainties
Due to prevailing uncertainties of renewable energy and time coupling constraints of energy
storage (ES), robustness and nonanticipativity of scheduling results directly influence the …
storage (ES), robustness and nonanticipativity of scheduling results directly influence the …
Robust line hardening strategies for improving the resilience of distribution systems with variable renewable resources
Line hardening refers to strengthening certain distribution lines that will not be subject to
outages during extreme conditions. Line hardening provides a resilient solution in the case …
outages during extreme conditions. Line hardening provides a resilient solution in the case …