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A conic model for electrolyzer scheduling

Enrica Raheli, Yannick Werner, Jalal Kazempour

2023Computers & Chemical Engineering44 citationsDOIOpen Access PDF

Abstract

The hydrogen production curve of the electrolyzer describes the nonlinear and nonconvex relationship between its power consumption and hydrogen production. An accurate representation of this curve is essential for the optimal scheduling of the electrolyzer. The current state-of-the-art approach is based on piecewise linear approximation, which requires binary variables and does not scale well for large-scale problems. To overcome this barrier, we propose two models, both built upon convex relaxations of the hydrogen production curve. The first one is a linear relaxation of the piecewise linear approximation, while the second one is a conic relaxation of a quadratic approximation. Both relaxations are exact under prevalent operating conditions. We prove this mathematically for the conic relaxation. Using a realistic case study, we show that the conic model, in comparison to the other models, provides a satisfactory trade-off between computational complexity and solution accuracy for large-scale problems.

Topics & Concepts

Scheduling (production processes)Conic sectionElectrolysisMathematical optimizationComputer scienceOperations researchEnvironmental scienceEngineeringMathematicsChemistryPhysical chemistryGeometryElectrodeElectrolyteIntegrated Energy Systems OptimizationHybrid Renewable Energy SystemsAdvanced Battery Technologies Research
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