International audienceRenewable energy based multi-energy supply microgrids not only can cover different types of demands (such as, electricity/heat/gas), but also can interconnect with different utility grid networks (electricity/heat/gas). When there are large numbers of grid-connected microgrids, how to operate these multiple microgrids in real-time is a problem. In this paper, day-ahead stochastic optimization scheduling and real-time sliding window model predictive control are used to control the operation of microgrids. In order to consider the influence of future prediction on the current optimal decision results, different prediction methods are adopted to predict the load demands and renewable energy output. For example, online lea...
The combined heat and power (CHP) microgrid can work both effectively and efficiently to provide ele...
Due to the source and load prediction errors and uncertainties, the real operation state of microgri...
A two-layer control scheme based on model predictive control (MPC) operating at two different timesc...
This paper reviews the current techniques used in energy management systems to optimize energy sched...
Microgrids (MGs) are presented as a cornerstone of smart grid, which can integrate intermittent rene...
International audienceMicrogrid operations are challenging due to variability in loads and renewable...
The operation of renewable microgrids is undergoing rapid transformations due to increasing renewabl...
We present a Robust Model Predictive Control (RMPC) approach for multi-carrier microgrids, i.e., mic...
Electricity load forecasting, optimal power system operation and energy management play key roles th...
This paper deals with the optimal operation of microgrids in presence of uncertainties. Loads and di...
This paper presents a novel control strategy for the optimal management of microgrids with high pene...
This paper deals with the optimal operation of microgrids in presence of uncertainties. Loads and di...
To schedule the distributed energy resources (DERs) and smart buildings of a microgrid in an optimal...
Multi-energy systems and microgrids can play an important role in increasing the efficiency of distr...
The combined heat and power (CHP) microgrid can work both effectively and efficiently to provide ele...
Due to the source and load prediction errors and uncertainties, the real operation state of microgri...
A two-layer control scheme based on model predictive control (MPC) operating at two different timesc...
This paper reviews the current techniques used in energy management systems to optimize energy sched...
Microgrids (MGs) are presented as a cornerstone of smart grid, which can integrate intermittent rene...
International audienceMicrogrid operations are challenging due to variability in loads and renewable...
The operation of renewable microgrids is undergoing rapid transformations due to increasing renewabl...
We present a Robust Model Predictive Control (RMPC) approach for multi-carrier microgrids, i.e., mic...
Electricity load forecasting, optimal power system operation and energy management play key roles th...
This paper deals with the optimal operation of microgrids in presence of uncertainties. Loads and di...
This paper presents a novel control strategy for the optimal management of microgrids with high pene...
This paper deals with the optimal operation of microgrids in presence of uncertainties. Loads and di...
To schedule the distributed energy resources (DERs) and smart buildings of a microgrid in an optimal...
Multi-energy systems and microgrids can play an important role in increasing the efficiency of distr...
The combined heat and power (CHP) microgrid can work both effectively and efficiently to provide ele...
Due to the source and load prediction errors and uncertainties, the real operation state of microgri...
A two-layer control scheme based on model predictive control (MPC) operating at two different timesc...