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...
The self-consumption without surplus to the grid is one of the aspects of the new Spanish law for pr...
A novel approach is presented using a genetic algorithm to enhance the planning of household electri...
In this article, a new business model comprising multiple stakeholders is proposed to develop a fram...
This paper presents a demand response (DR) framework that intertwines thermodynamic building models ...
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...
This paper proposes a load scheduling approach for a residential home in an islanded PV microgrid sc...
Renewable energy resource (RER) energy systems are becoming more cost-effective and this work invest...
Due to the rising concerns on global warming, renewable electricity generation is expected to form a...
We consider a smart microgrid environment where renewable power sources like wind generators are ava...
The self-consumption without surplus to the grid is one of the aspects of the new Spanish law for pr...
A novel approach is presented using a genetic algorithm to enhance the planning of household electri...
In this article, a new business model comprising multiple stakeholders is proposed to develop a fram...
This paper presents a demand response (DR) framework that intertwines thermodynamic building models ...
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...
This paper proposes a load scheduling approach for a residential home in an islanded PV microgrid sc...
Renewable energy resource (RER) energy systems are becoming more cost-effective and this work invest...
Due to the rising concerns on global warming, renewable electricity generation is expected to form a...
We consider a smart microgrid environment where renewable power sources like wind generators are ava...
The self-consumption without surplus to the grid is one of the aspects of the new Spanish law for pr...
A novel approach is presented using a genetic algorithm to enhance the planning of household electri...
In this article, a new business model comprising multiple stakeholders is proposed to develop a fram...