\u3cp\u3eThis paper presents a demand response (DR) framework that utilizes the flexibility inherent to the thermodynamic behavior of four groups of independently-controlled medical freezers in a privately-owned business park microgrid that contains rooftop photovoltaics (PV). The optimization objectives may be chosen from the following 3 options: minimizing electricity exchanges with the public grid; minimizing costs by considering prices and RES availability; and minimizing peak load. The proposed DR framework combines thermodynamic models with automated, genetic-algorithm-based optimization, resulting in demonstrable benefits in terms of cost, energy efficiency, and peak power reduction for the consumer, local energy producer, and grid o...
The US Department of Energy has launched the Zero-Net-Energy (ZNE) Commercial Building Initiative (C...
The utility's utilization of communication technology and renewable energy sources has paved the pat...
This study proposes a new model of demand response management for a future smart grid that consists ...
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 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...
In the face of unprecedented challenges in environmental sustainability and grid resilience, there i...
An energy management system (EMS) was proposed for a campus microgrid (µG) with the incorporation of...
This research aims to develop solutions to relieve system stress conditions in electric grids. The a...
The US Department of Energy has launched the Zero-Net-Energy (ZNE) Commercial Building Initiative (C...
The utility's utilization of communication technology and renewable energy sources has paved the pat...
This study proposes a new model of demand response management for a future smart grid that consists ...
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 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...
In the face of unprecedented challenges in environmental sustainability and grid resilience, there i...
An energy management system (EMS) was proposed for a campus microgrid (µG) with the incorporation of...
This research aims to develop solutions to relieve system stress conditions in electric grids. The a...
The US Department of Energy has launched the Zero-Net-Energy (ZNE) Commercial Building Initiative (C...
The utility's utilization of communication technology and renewable energy sources has paved the pat...
This study proposes a new model of demand response management for a future smart grid that consists ...