Optimal scheduling of Egyptian grid with pumped storage hydroelectric power plant

Abstract

Egypt's national development plan aims at diversifying energy resources and expanding on renewable energy generation technologies. However, the Egyptian national grid needs energy-storage components to stabilize its power supply when coupled with renewable energy due to the intermittent and random nature of them. The optimal power expansion plan has been reached using a production and costing software package electric generation expansion analysis system (EGEAS). Although pumped storage hydroelectric power plants (PSHPPs) have potential to be constructed in Attaqa Mountain, Egypt, it has not been considered in Egypt's optimal power expansion plan. This study proposes an optimal scheduling of Egypt's grid, adding PSHPP as a committed power plant. First, a mathematic formulation of Attaqa PSHPP is presented. Then, to reach the goal of economic dispatch, an optimal scheduling model of national grid is established with the consideration of both respective operation constraints and load requirements. The results of EGEAS simulation module showed that PSHPP operation for 20 years achieves a net fuel cost saving of 795 M$ as calculated from with and without PSHPP conditions at domestic subsidized fuel prices. More than double of this saving, 7778 M$, could be achieved if the net fuel cost savings are calculated at international fuel prices.