Robust bilinear tracking control of a parabolic trough solar collector via saturation
Robust bilinear tracking control of a parabolic trough solar collector via saturation
This paper investigates the problem of robust tracking control of heat transport in a Parabolic Trough Solar Collector (PTSC), where the output has to track a desired reference trajectory. In this work, the PTSC is modeled by state-space bilinear dynamics. The manipulated variable is the pump volumetric flow rate, and the source term, i.e., solar irradiance, is assumed to be unmeasured. In addition, the actuator's physical constraints induce saturation bounds on the manipulated variable and need to be considered explicitly in the controller design. To deal with these challenges, we first propose a saturated state-feedback law that meets the control objectives. Then, we reconstruct the unknown time-varying source term using an adaptive estimator. Later, through Lyapunov stability analysis, we prove that the closed-loop system and the output tracking error are uniformly ultimately stable. Numerical simulations attest to the performance of the proposed control strategy.
Adaptive bounded control, Bilinear systems, Bounded control, Solar collector parabolic trough, Unknown source-term estimation
Mechhoud, Sarah
6f75e182-2069-402d-9a91-38fabd1b2624
Belkhatir, Zehor
de90d742-a58f-4425-837c-20ff960fb9b6
19 October 2024
Mechhoud, Sarah
6f75e182-2069-402d-9a91-38fabd1b2624
Belkhatir, Zehor
de90d742-a58f-4425-837c-20ff960fb9b6
Mechhoud, Sarah and Belkhatir, Zehor
(2024)
Robust bilinear tracking control of a parabolic trough solar collector via saturation.
Journal of Process Control, 143, [103321].
(doi:10.1016/j.jprocont.2024.103321).
Abstract
This paper investigates the problem of robust tracking control of heat transport in a Parabolic Trough Solar Collector (PTSC), where the output has to track a desired reference trajectory. In this work, the PTSC is modeled by state-space bilinear dynamics. The manipulated variable is the pump volumetric flow rate, and the source term, i.e., solar irradiance, is assumed to be unmeasured. In addition, the actuator's physical constraints induce saturation bounds on the manipulated variable and need to be considered explicitly in the controller design. To deal with these challenges, we first propose a saturated state-feedback law that meets the control objectives. Then, we reconstruct the unknown time-varying source term using an adaptive estimator. Later, through Lyapunov stability analysis, we prove that the closed-loop system and the output tracking error are uniformly ultimately stable. Numerical simulations attest to the performance of the proposed control strategy.
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More information
Accepted/In Press date: 9 October 2024
e-pub ahead of print date: 19 October 2024
Published date: 19 October 2024
Keywords:
Adaptive bounded control, Bilinear systems, Bounded control, Solar collector parabolic trough, Unknown source-term estimation
Identifiers
Local EPrints ID: 502669
URI: http://eprints.soton.ac.uk/id/eprint/502669
ISSN: 0959-1524
PURE UUID: b29c9cc0-4e2d-4441-90b4-ef1f865f7e79
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Date deposited: 04 Jul 2025 16:32
Last modified: 05 Jul 2025 02:13
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Contributors
Author:
Sarah Mechhoud
Author:
Zehor Belkhatir
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