Generation Scheduling in Large-Scale Power Systems with Wind Farms Using MICA
Subject Areas : journal of Artificial Intelligence in Electrical Engineering
Hossein Nasiragdam
1
,
Nariman Najafian
2
1 - Journal of Artificial Intelligence in Electrical Engineering
2 - Journal of Artificial Intelligence in Electrical Engineering
Keywords: Planning production, wind farm, Imperialist Competitive Algorithm, responding load, request, resource,
Abstract :
The growth in demand for electric power and the rapid increase in fuel costs, in whole of theworld need to discover new energy resources for electricity production. Among of the nonconventionalresources, wind and solar energy, is known as the most promising deviceselectricity production in the future. In this thesis, we study follows to long-term generationscheduling of power systems in the presence of wind units considering demand responseprograms for a power generation system with the conventional structure containing 10 units ofthermal power plants, 2 units of large-scale wind farms, with regard to demand responseprograms. In this study, the model of equation order 2, used to model the cost of thermal powerplants. Due to the apparent wind farm modeling of wind speed in the months of the year has beenused the productivity of each month. For modeling the demand, response of the concept of virtualgeneration demand resources is used and production costs of the final objective function areapplied. All simulations, performed in MATLAB. The results showed that the cost of basic stateallocated more values by itself, by considering responding load would be happened the costreduction and the amount of this reduction changes with participation value and increasesamount of lower cost by increasing participation value.