A nested online scheduling and nonlinear model predictive control framework for multi-product continuous systems |
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Authors: | Oswaldo Andrés-Martínez Luis A. Ricardez-Sandoval |
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Affiliation: | Department of Chemical Engineering, University of Waterloo, Waterloo, Ontario, Canada |
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Abstract: | In the pursuit of integrated scheduling and control frameworks for chemical processes, it is important to develop accurate integrated models and computational strategies such that optimal decisions can be made in a dynamic environment. In this study, a recently developed switched system formulation that integrates scheduling and control decisions is extended to closed-loop operation embedded with nonlinear model predictive control (NMPC). The resulting framework is a nested online scheduling and control loop that allows to obtain fast and accurate solutions as no model reduction is needed and no integer variables are involved in the formulations. In the outer loop, the integrated model is solved to calculate an optimal product switching sequence such that the process economics is optimized, whereas in the inner loop, an NMPC implements the scheduling decisions. The proposed scheme was tested on two multi-product continuous systems. Unexpected large disturbances and rush orders were handled effectively. |
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Keywords: | continuous processes integrated scheduling and control nonlinear model predictive control online scheduling switched systems |
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