Dynamic optimization and robust explicit model predictive control of hydrogen storage tank
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AbstractWe present a general framework for the optimal design and control of a metal-hydride bed under hydrogen desorption operation. The framework features: (i) a detailed two-dimension dynamic process model, (ii) a design and operational dynamic optimization step, and (iii) an explicit/multi-parametric model predictive controller design step. For the controller design, a reduced order approximate model is obtained, based on which nominal and robust multi-parametric controllers are designed. © 2010 Elsevier Ltd.
CitationPanos C, Kouramas KI, Georgiadis MC, Pistikopoulos EN (2010) Dynamic optimization and robust explicit model predictive control of hydrogen storage tank. Computers & Chemical Engineering 34: 1341–1347. Available: http://dx.doi.org/10.1016/j.compchemeng.2010.02.018.
SponsorsThe financial support of the European Project DIAMANTE (MTKI-CT-2005-IAP-029544), EPSRC (EP/E047017/1) and KAUST are kindly acknowledged.
JournalComputers & Chemical Engineering