Nonlinear MPC for Thermal Balancing of the TCP-100 Parabolic Trough Collectors Solar Plant

The efficiency of the solar plants is conditioned by the control strategies applied in their operation. In this paper, an application of a Model Predictive Controller based on nonlinear models of the TCP-100 parabolic trough collector solar plant is presented as one example of the advanced control t...

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Bibliographic Details
Main Authors: Gallego, Antonio J., Yebra, Luis J., Del Pozo, Adolfo J. Sanchez, Escano, Juan M., Camacho, Eduardo. F.
Format: Conference Proceeding
Language:English
Subjects:
Fluids
Heuristic algorithms
Predictive models
Simulation
Temperature control
Transient analysis
Valves
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Summary:The efficiency of the solar plants is conditioned by the control strategies applied in their operation. In this paper, an application of a Model Predictive Controller based on nonlinear models of the TCP-100 parabolic trough collector solar plant is presented as one example of the advanced control techniques that can contribute to enhance the efficiency of this type of plants. Both types of nonlinear models of the TCP-100 facility are applied for this application: lumped and distributed parameter ones. The objective of the proposed control strategy is to face a problem that arises in current commercial solar trough plants, with hundreds of loops, where in practice each of those loops get a different outlet temperature of the heat transfer fluid. These temperature differences might cause inefficiency in the operation and/or irreversible damages by overheating, if not properly controlled. The presented control strategy computes the set-points of the control valves of each of the loops to achieve a good thermal balance of the solar plant. The proposed strategy implements also a heuristic based algorithm when strong transients are affecting the field. The simulation results show that the application of the proposed control technique balances the outlet temperatures of the loops, protecting the TCP-100 facility from damages and increasing its efficiency in the operation.
ISSN:2378-5861
DOI:10.23919/ACC55779.2023.10156440