A Coordinating Algorithm for Dispatching Regulation Services Between Slow and Fast Power Regulating Resources

This paper presents a novel coordinating algorithm for dispatching regulation services between slow and fast power regulating resources using a conventional power generator and a flywheel energy storage system as an example. The goal is to let the flywheel storage device follow the fast changes in the regulation signal and let the conventional generator compensate for the energy imbalance when the flywheel storage is nearly fully charged or discharged. A state-of-charge (SOC) band control algorithm is developed to maintain the storage device SOC within a desired range. Real system regulation signals were used to test the performance of the coordinating algorithm. The simulation results show that: 1) the HRR achieves the same fast response rate as that of the storage device, 2) the up and down movements of the generator are minimized, and 3) the SOC of the storage device is maintained within the desired range most of the time. Therefore, the proposed coordinating algorithm can provide the high quality regulation service while reducing maintenance-inducing strain on conventional generators.