The microgrid exhibits a notable change in the frequency deviation $(\Delta F)$ even for small perturbations in the connected load or weather dependent energy sources like solar, wind etc. Hence a secondary load frequency control is required for frequency stabilization in the microgrid. In this paper, a novel combination of model predictive controller (MPC) and tilt derivative called diverse structure model predictive controller (DSMPC) is proposed for multi microgrids. A multi microgrid is comprised of wind and solar tower power generation units, including bio generations and electric vehicle (EV) in both the areas. The performance of the proposed controller is compared against marine predator technique optimized DSMPC and MPC controls. Furthermore, the study investigates the impact EV in stabilizing the system frequency under the consideration of real-time wind data. A real-time hardware-in-the-loop (HIL) simulation platform is utilized to validate the proposed control approach.
Robust Frequency Stabilization of Renewable-Bio-Electric Vehicle Integrated Multi Microgrid under Diverse Structure Model Predictive Controller
2022-08-04
630382 byte
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
A robust multi-model predictive controller for distributed parameter systems
BASE | 2012
|