A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Demand Response Strategy For Smart Buildings Based On Day-Ahead Invitation Mode
This paper proposes a day-ahead invitation demand response strategy for smart buildings. The strategy constructs a model of the building integrated energy system and proposes an algorithm for assessing the potential of day-ahead demand response. It covers four typical response modes and provides an in-depth analysis of the mode with the greatest response potential. By implementing this strategy, it is possible to significantly reduce the building's electricity purchase costs, decrease overall operational expenses, and achieve notable success in reducing carbon emissions.
Demand Response Strategy For Smart Buildings Based On Day-Ahead Invitation Mode
This paper proposes a day-ahead invitation demand response strategy for smart buildings. The strategy constructs a model of the building integrated energy system and proposes an algorithm for assessing the potential of day-ahead demand response. It covers four typical response modes and provides an in-depth analysis of the mode with the greatest response potential. By implementing this strategy, it is possible to significantly reduce the building's electricity purchase costs, decrease overall operational expenses, and achieve notable success in reducing carbon emissions.
Demand Response Strategy For Smart Buildings Based On Day-Ahead Invitation Mode
Luo, Jingjun (author) / Li, Jiaqi (author) / Wu, Lin (author) / Chen, Depei (author) / Li, Jialv (author) / Feng, Jiamin (author) / Wang, Lixiao (author)
2024-11-08
1789230 byte
Conference paper
Electronic Resource
English
Demand Response in Smart Buildings
| Springer Verlag | 2022
Smart Buildings, Smart Communities and Demand Response
| TIBKAT | 2020
Demand Response Frameworks for Smart Residential Buildings
| Springer Verlag | 2021