Sub-optimal Linear Parameter Varying Model Predictive Control for Solar Collectors
Date
2020-02-26
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IEEE, Institute of Electrical and Electronics Engineers
Abstract
This short paper investigates the temperature control of a flat-plate water-heating solar collector. This nonlinear system is modelled via a quasi-linear parameter varying setting. To address this control problem, a model predictive control algorithm is formulated, considering a frozen guess for the evolution of the scheduling parameters, set-sequence constraints and a Lyapunov-decreasing terminal cost. The advantage of this method is that it uses standard quadratic programming problems and does not have to resort to nonlinear optimization. Through simulation, it is demonstrated that it can yield successful performances.
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Keywords
Solar collector, Model predictive control, Quasi-linear parameter varying systems, Control invariant sets, Sub optimal
Citation
M. M. Morato, H. A. Pipino, E. Bernardi, D. M. Ferreyra, E. J. Adam and J. E. Normey-Rico, "Sub-optimal Linear Parameter Varying Model Predictive Control for Solar Collectors," 2020 IEEE International Conference on Industrial Technology (ICIT), Buenos Aires, Argentina, 2020, pp. 95-100, doi: 10.1109/ICIT45562.2020.9067139.
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Except where otherwised noted, this item's license is described as embargoedAccess