Steam turbine rotor stress control through nonlinear model predictive control - Archive ouverte HAL
Article Dans Une Revue Energies Année : 2021

Steam turbine rotor stress control through nonlinear model predictive control

Résumé

The current flexibility of the energy market requires operating steam turbines that have challenging operation requirements such as variable steam conditions and higher number of startups. This article proposes an advanced control system based on the Nonlinear Model Predictive Control (NMPC) technique, which allows to speed up the start-up of steam turbines and increase the energy produced while maintaining rotor stress as a constraint variable. A soft sensor for the online calculation of rotor stress is presented together with the steam turbine control logic. Then, we present how the computational cost of the controller was contained by reducing the order of the formulation of the optimization problem, adjusting the scheduling of the optimizer routine, and tuning the parameters of the controller itself. The performance of the control system has been compared with respect to the PI Controller architecture fed by the soft sensor results and with standard pre-calculated curves. The control architecture was evaluated in a simulation exploiting actual data from a Concentrated Solar Power Plant. The NMPC technique shows an increase in performance, with respect to the custom PI control application, and encouraging results.
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hal-03955937 , version 1 (07-02-2023)

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Stefano Dettori, Alessandro Maddaloni, Filippo Galli, Valentina Colla, Federico Bucciarelli, et al.. Steam turbine rotor stress control through nonlinear model predictive control. Energies, 2021, la conception et la mise en œuvre du système de contrôle prédictif du modèle ), 14 (13), pp.3998. ⟨10.3390/en14133998⟩. ⟨hal-03955937⟩
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