This paper presents a demand response (DR) framework that intertwines thermodynamic building models with a genetic algorithm (GA)-based optimization method. The framework optimizes heating/cooling schedules of end-users inside a business park microgrid with local distributed generation from renewable energy sources (DG-RES) based on two separate objectives: net load minimization and electricity cost minimization. DG-RES is treated as a curtailable resource in anticipation of future scenarios where the infeed of DG-RES to the regional distribution network could be limited. We test the DR framework with a case study of a refrigerated warehouse and an office building located in a business park with local PV generation. Results show the technic...
In the face of unprecedented challenges in environmental sustainability and grid resilience, there i...
The addition of storage technologies such as flow batteries, conventional batteries, and heat storag...
Due to the rising concerns on global warming, renewable electricity generation is expected to form a...
This paper presents a demand response (DR) framework that intertwines thermodynamic building models ...
This paper optimizes the thermodynamic behavior of buildings through demand response (DR) by operati...
This paper presents a demand response (DR) framework that utilizes the flexibility inherent to the t...
This work presents a day-ahead demand response (DR) scheduling framework that quantifies the flexibi...
This work presents a day-ahead demand response (DR) scheduling framework that quantifies the flexibi...
Summarization: Demand response offers the possibility of altering the profile of power consumption o...
Efficient utilization of renewable generation inside microgrids remains challenging. In most existin...
The penetration rates of intermittent renewable energies such as wind and solar energy have been inc...
Efficient utilization of renewable generation inside microgrids remains challenging. In most existin...
Integration of renewable energy sources in microgrids can be achieved via demand response programs, ...
In the face of unprecedented challenges in environmental sustainability and grid resilience, there i...
The addition of storage technologies such as flow batteries, conventional batteries, and heat storag...
Due to the rising concerns on global warming, renewable electricity generation is expected to form a...
This paper presents a demand response (DR) framework that intertwines thermodynamic building models ...
This paper optimizes the thermodynamic behavior of buildings through demand response (DR) by operati...
This paper presents a demand response (DR) framework that utilizes the flexibility inherent to the t...
This work presents a day-ahead demand response (DR) scheduling framework that quantifies the flexibi...
This work presents a day-ahead demand response (DR) scheduling framework that quantifies the flexibi...
Summarization: Demand response offers the possibility of altering the profile of power consumption o...
Efficient utilization of renewable generation inside microgrids remains challenging. In most existin...
The penetration rates of intermittent renewable energies such as wind and solar energy have been inc...
Efficient utilization of renewable generation inside microgrids remains challenging. In most existin...
Integration of renewable energy sources in microgrids can be achieved via demand response programs, ...
In the face of unprecedented challenges in environmental sustainability and grid resilience, there i...
The addition of storage technologies such as flow batteries, conventional batteries, and heat storag...
Due to the rising concerns on global warming, renewable electricity generation is expected to form a...