Integrated energy storage systems with the Jordanian electrical power grid

Abstract

Advantageous integrated energy storage systems (IESS) can be utilized for power systems’ operations generating set units with maximum possible efficiency, optimizing of unit commitment, integrating of more renewable energy generators, and utilizing renewable energy generators as peak power plants. Additionally, IESS implementation can aid in controlling the Jordanian national grid's frequencies under faults circumstances, maintaining the equilibrium between the electric loads and the generating capacities, and utilizing the existence of tie line in feasible applications, and maintaining the grid's frequency. This work presents an overall technical and feasibility studies on IESS implementation in power systems. New algorithms illustrated in flow charts present detailed mechanism to control the power flow and to store or discharge energy upon the need and load demand. Different energy storage systems are explored and presented as well. A study plan followed by recommendations are presented to enhance the grid's behavior and transition it into a smart grid.