Optimizing reactive power flow in electrical network is an important aspect of system study as the reactive power supports network voltage which needs to be maintained within desirable limits for system reliability. A network consisting of only conventional thermal generators has been extensively studied for optimal active and reactive power dispatch. However, increasing penetration of renewable sources into the grid necessitates power flow studies incorporating these sources. This paper presents a formulation and solution procedure for stochastic optimal reactive power dispatch (ORPD) problem with uncertainties in load demand, wind and solar power. Appropriate probability density functions (PDFs) are considered to model the stochastic load...
This thesis presents a method to incorporate the effects of uncertain parameters into optimal energy...
The variability of renewables requires a higher degree of flexibility in power system operation. At ...
Future energy systems are expected to rely increasingly more on distributed energy resources (DER). ...
Optimal Reactive Power Dispatch (ORPD) is a multi-variable problem with nonlinear constraints and co...
The stochastic nature of solar renewable power poses challenges in distribution networks with high-p...
Optimal Reactive Power Dispatch (ORPD is thought of as a noncontinuous, nonlinear global optimizatio...
The penetration of renewable energy resources into electric power networks has been increased consid...
Generations from several sources in an electrical network are to be optimally scheduled for economic...
This paper proposes a data-driven stochastic optimal power flow model considering the uncertainties ...
Due to integration of large amount of renewable energy generators (REGs) to the power grid, implemen...
This paper deals with energy storage system (ESS) in active distribution networks. The purpose is to...
Optimal active–reactive power dispatch problems (OARPD) are non-convex and highly nonlinear complex ...
The uncertainties from renewable energy sources (RESs) will not only introduce significant influence...
In power engineering, minimizing the power loss in the transmission lines and/or minimizing the volt...
Renewable energy sources such as wind and solar have received much attention in recent years, and la...
This thesis presents a method to incorporate the effects of uncertain parameters into optimal energy...
The variability of renewables requires a higher degree of flexibility in power system operation. At ...
Future energy systems are expected to rely increasingly more on distributed energy resources (DER). ...
Optimal Reactive Power Dispatch (ORPD) is a multi-variable problem with nonlinear constraints and co...
The stochastic nature of solar renewable power poses challenges in distribution networks with high-p...
Optimal Reactive Power Dispatch (ORPD is thought of as a noncontinuous, nonlinear global optimizatio...
The penetration of renewable energy resources into electric power networks has been increased consid...
Generations from several sources in an electrical network are to be optimally scheduled for economic...
This paper proposes a data-driven stochastic optimal power flow model considering the uncertainties ...
Due to integration of large amount of renewable energy generators (REGs) to the power grid, implemen...
This paper deals with energy storage system (ESS) in active distribution networks. The purpose is to...
Optimal active–reactive power dispatch problems (OARPD) are non-convex and highly nonlinear complex ...
The uncertainties from renewable energy sources (RESs) will not only introduce significant influence...
In power engineering, minimizing the power loss in the transmission lines and/or minimizing the volt...
Renewable energy sources such as wind and solar have received much attention in recent years, and la...
This thesis presents a method to incorporate the effects of uncertain parameters into optimal energy...
The variability of renewables requires a higher degree of flexibility in power system operation. At ...
Future energy systems are expected to rely increasingly more on distributed energy resources (DER). ...