Integration of renewable energy resources in microgrids has been increasing in recent decades. Due to the randomness in renewable resources such as solar and wind, the power generated can deviate from forecasted values. This variation may cause increased operating costs for committing costly reserve units or penalty costs for shedding load. In addition, it is often desired to charge/discharge and coordinate the energy storage units in an efficient and economical way. To address these problems, a novel battery operation cost model is proposed which considers a battery as an equivalent fuel-run generator to enable it to be incorporated into a unit commitment problem. A probabilistic constrained approach is used to incorporate the uncertaintie...
The need for secure and flexible operation of distribution power systems with renewable generation a...
Integrating high levels of variable renewable energy sources (VRESs) in power systems imperils the s...
Renewable energy resources such as wind and solar are increasingly more important in distribution ne...
This paper endeavors a probabilistic framework to ascertain optimal operation of a microgrid with a ...
Grid integration of renewable resources such as solar and wind energy can significantly raise the le...
The microgrids can function as a single controllable system in a grid-connected or islanded operatio...
In order to maximize the use of renewable-based distributed generators (DGs), in addition to dealing...
The Stochastic nature of wind power can cause insufficiency of supply in electrical systems. Applyin...
Energy supply through integrated renewable energy sources (RESs) and battery systems will be of high...
International audienceMicrogrid operations are challenging due to variability in loads and renewable...
This work proposes a novel two stage stochastic optimization approach for the Energy Management Syst...
The large-scale integration of renewable energy sources is advancing rapidly in numerous power syste...
Energy storage is one of the most important components of microgrids with non-dispatchable generator...
In this paper, we focus on energy management of distributed generators (DGs) and energy storage syst...
The need for secure and flexible operation of distribution power systems with renewable generation a...
Integrating high levels of variable renewable energy sources (VRESs) in power systems imperils the s...
Renewable energy resources such as wind and solar are increasingly more important in distribution ne...
This paper endeavors a probabilistic framework to ascertain optimal operation of a microgrid with a ...
Grid integration of renewable resources such as solar and wind energy can significantly raise the le...
The microgrids can function as a single controllable system in a grid-connected or islanded operatio...
In order to maximize the use of renewable-based distributed generators (DGs), in addition to dealing...
The Stochastic nature of wind power can cause insufficiency of supply in electrical systems. Applyin...
Energy supply through integrated renewable energy sources (RESs) and battery systems will be of high...
International audienceMicrogrid operations are challenging due to variability in loads and renewable...
This work proposes a novel two stage stochastic optimization approach for the Energy Management Syst...
The large-scale integration of renewable energy sources is advancing rapidly in numerous power syste...
Energy storage is one of the most important components of microgrids with non-dispatchable generator...
In this paper, we focus on energy management of distributed generators (DGs) and energy storage syst...
The need for secure and flexible operation of distribution power systems with renewable generation a...
Integrating high levels of variable renewable energy sources (VRESs) in power systems imperils the s...
Renewable energy resources such as wind and solar are increasingly more important in distribution ne...