Title :
Management and Control of Domestic Smart Grid Technology
Author :
Molderink, Albert ; Bakker, Vincent ; Bosman, Maurice G C ; Hurink, Johann L. ; Smit, Gerard J M
Author_Institution :
Dept. of Comput. Sci., Math. & Electr. Eng., Univ. of Twente, Enschede, Netherlands
Abstract :
Emerging new technologies like distributed generation, distributed storage, and demand-side load management will change the way we consume and produce energy. These techniques enable the possibility to reduce the greenhouse effect and improve grid stability by optimizing energy streams. By smartly applying future energy production, consumption, and storage techniques, a more energy-efficient electricity supply chain can be achieved. In this paper a three-step control methodology is proposed to manage the cooperation between these technologies, focused on domestic energy streams. In this approach, (global) objectives like peak shaving or forming a virtual power plant can be achieved without harming the comfort of residents. As shown in this work, using good predictions, in advance planning and real-time control of domestic appliances, a better matching of demand and supply can be achieved.
Keywords :
demand side management; distributed power generation; domestic appliances; electricity supply industry; power consumption; power distribution control; power generation control; smart power grids; demand and supply; demand side load management; distributed energy generation; distributed energy storage; domestic appliance planning; domestic smart grid control; domestic smart grid management; energy consumption; energy efficient electricity supply chain; energy production; energy stream optimization; greenhouse effect reduction; grid stability; real-time domestic appliance control; virtual power plant; Distributed control; Energy consumption; Energy efficiency; Energy storage; Load management; Optimized production technology; Smart grids; Stability; Supply chains; Technology management; Energy efficiency; microgeneration; microgrid; smart grid; virtual power plant;
Journal_Title :
Smart Grid, IEEE Transactions on
DOI :
10.1109/TSG.2010.2055904
