English

Frequency Control of Decoupled Synchronous Machine Using Koopman Operator Based Model Predictive

Signal Processing 2019-01-17 v1

Abstract

Conventional generators have been retired or replaced by renewable energy because of the utility long-standing goals. However, instead of decommissioning the entire plant, the rotating mass can be utilized as a storage unit to mitigate the frequency issues due to these changes in the grid. The goal is to design a control utilizing the retired machine interfaced with the grid through a back to back converter referred to as decoupled synchronous machine system (DSMS) to damp frequency oscillations. However, in a practical setting, it is often not possible for a utility to obtain access to the detailed state equations of such devices from the vendor making the addition of another layer of control a challenging problem. Therefore, a purely data driven approach to nonlinear control design using Koopman operator based framework is proposed for this application. The effectiveness of the proposed system is demonstrated in the Kundur two-area system.

Keywords

Cite

@article{arxiv.1901.05341,
  title  = {Frequency Control of Decoupled Synchronous Machine Using Koopman Operator Based Model Predictive},
  author = {Xiawen Li and Chetan Mishra and Jaime De La Ree},
  journal= {arXiv preprint arXiv:1901.05341},
  year   = {2019}
}

Comments

2019 IEEE PES General Meeting

R2 v1 2026-06-23T07:13:29.978Z