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Unlocking the potential of synthetic fuel production: Coupled optimization of heat exchanger network and operating parameters of a 1 MW power-to-liquid plant

David Huber, Felix Birkelbach, René Hofmann

2023Chemical Engineering Science12 citationsDOIOpen Access PDF

Abstract

The use of synthetic fuels is a promising way to reduce emissions significantly. To accelerate cost-effective large-scale synthetic fuel deployment, we optimize a novel 1 MW PtL-plant in terms of PtL-efficiency and fuel production costs. For numerous plants, the available waste heat and temperature level depend on the operating point. To optimize efficiency and costs, the choice of the operating point is included in the heat exchanger network synthesis. All nonlinearities are approximated using piecewise linear models and transferred to MILP. Adapting the epsilon constraint method allows us to solve the multi-criteria problem with uniformly distributed solutions on the Pareto front. We improved the lowest production costs of 1.89€/kg and the highest efficiency of 58.08% from the conventional design process to 1.83€/kg and 61.33%. By applying the presented method, climate-neutral synthetic fuels can be promoted and emissions can be reduced in the long term.

Topics & Concepts

Heat exchangerProcess engineeringOperating pointProduction (economics)Environmental scienceMathematical optimizationComputer scienceEngineeringMechanical engineeringMathematicsElectrical engineeringMacroeconomicsEconomicsProcess Optimization and IntegrationCatalysts for Methane ReformingAdvanced Control Systems Optimization
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