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Economic Optimization of Carbon Capture Processes Using Ionic Liquids: Toward Flexibility in Capture Rate and Feed Composition

Kyeongjun Seo, Calvin Tsay, Thomas F. Edgar, Mark A. Stadtherr, Michael Bâldea

2021ACS Sustainable Chemistry & Engineering26 citationsDOI

Abstract

Aprotic heterocyclic anion ionic liquids (AHA ILs) have received significant recent attention as potential absorbents for next-generation carbon capture processes. In this paper, we describe a rate-based model of an AHA IL-based carbon capture process. We use the model to perform economic optimization, minimizing a total cost function (annual operating cost plus annualized capital cost). Process-level decisions, including equipment design and operating parameters, are considered simultaneously with the material-level decision of the CO2 reactive absorption enthalpy in the AHA IL being a tunable molecular parameter. We study how the optimal design changes with flexible flue gas compositions, with a focus on cases arising in the context of partial oxy-combustion. We also study the variation in the optimal design as the CO2 capture level changes. Flexibility in this regard is important as power plants increasingly need to account for time-varying power demand due to the market penetration of variable renewable energy sources such as wind and solar power.

Topics & Concepts

Process engineeringFlue gasIonic liquidContext (archaeology)Renewable energyFlexibility (engineering)Carbon capture and storage (timeline)CombustionElectricity generationEnvironmental scienceWind powerComputer scienceChemistryWaste managementPower (physics)ThermodynamicsEngineeringOrganic chemistryCatalysisEconomicsPhysicsManagementPaleontologyEcologyBiologyElectrical engineeringClimate changeIonic liquids properties and applicationsCarbon Dioxide Capture TechnologiesPhase Equilibria and Thermodynamics
Economic Optimization of Carbon Capture Processes Using Ionic Liquids: Toward Flexibility in Capture Rate and Feed Composition | Litcius