원문정보
초록
영어
In this paper, for efficient energy consumption through the residential demand response in the smart grid, an optimization algorithm, which can provide a schedule plan for the home appliance usages, is proposed. In order to minimize the average electricity price based on the time-varying electricity price in conjunction with the peak hourly load, which decides the capacity of the electric supply facilities, we establish a mixed integer linear programming problem considering various energy consumption patterns of home appliances. In addition, a photovoltaic system and an energy storage are added to the residential side to achieve further efficient schedule plans. By measuring the power consumptions of the home appliances with respect to the time, we constructed the power consumption patterns of each appliance and numerically analyzed the performance of our algorithm by using a real time-varying electricity price and the solar cell power profile obtained through a mathematical model.
목차
1. Introduction
2. Residential Power Management
2.1. Power-Shiftable Appliances
2.2. Time-Shiftable Appliances
2.3. Non-Shiftable Appliances
3. Scheduling Optimizations
3.1. Minimization of the Residential Electricity Bill
3.2. Residential Electricity Bill Considering the Peak Hourly Load
4. Scheduling Optimizations with a Photovoltaic System and an Energy Storage
4.1. Residential Electricity Bill with a Photovoltaic System
4.2. Residential Electricity Bill with a Photovoltaic System and an Energy Storage
5. Experimental Results
5.1. Scheduling Optimization Results
5.2. Scheduling Optimization Results with a Photovoltaic System and an Energy Storage
6. Conclusion
Acknowledgements
References