Real-time Nonlinear Economic Model Predictive Control of Wind Energy Conversion System

To address the new challenges of economic control and real-time requirements in wind energy conversion systems (WECS), this study proposes a nonlinear economic model predictive control (NEMPC) strategy. This strategy aims to maximize power generation and while reducing fatigue loads on critical structures, such as towers and gearboxes. Additionally, a moving horizon estimator (MHE) has been designed to provide an effective initialization for optimization. By exploiting the similarity of nonlinear programs between adjacent sampling moments, the algorithm achieves real-time iterative (RTI) solutions. Using a 5 MW wind turbine as the research object, the proposed strategy is implemented in the ACADOS framework for real-time optimization. Simulation results demonstrate that the strategy effectively improves the economic performance of the system while ensuring real-time control. © 2025 Acta Simulata Systematica Sinica. All rights reserved.