Title :
Demand Side Storage to Increase Hydroelectric Generation Efficiency
Author :
Moghadam, Milad Fekri ; Metcalfe, Malcolm ; Dunford, William G. ; Vaahedi, Ebrahim
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of British Columbia, Vancouver, BC, Canada
Abstract :
In this paper, a new generation control strategy is proposed based on combined use of different resources including large hydroelectric power plants and directly controlled industrial responsive loads. Water pumping in water storage systems is modeled as a virtual power plant (VPP) in transmission system. The balance model is in the economic dispatch (ED) time frame and loads are scheduled to be dispatched optimally along with the swing hydroelectric plant, which realizes load-following and frequency regulation. The model is implemented on the IEEE 24 bus reliability test system with hydroelectric generation units. Real-field data of responsive loads are used and the results show the value of flexibility of responsive loads in increasing generation efficiency of hydroelectric power plants operated in swing mode.
Keywords :
demand side management; energy storage; frequency control; hydroelectric power stations; load flow control; power generation control; power generation dispatch; power generation economics; water storage; IEEE 24 bus reliability test system; VPP; demand side storage; directly controlled industrial responsive loads; economic dispatch time frame; frequency regulation; generation control strategy; generation efficiency; hydroelectric generation units; large hydroelectric power plants; load-following; swing hydroelectric plant; transmission system; virtual power plant; water pumping; water storage systems; Decision support systems; Energy consumption; Load modeling; Power demand; Power generation; Vectors; Water resources; Aggregator; automatic generation control; demand dispratch; demand response; demand side management; demand side storage; economic dispatch (ED); responsive loads;
Journal_Title :
Sustainable Energy, IEEE Transactions on
DOI :
10.1109/TSTE.2014.2371053
