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Impact of carbon dioxide removal technologies on deep decarbonization of the electric power sector

John Bistline, Geoffrey J. Blanford

2021Nature Communications157 citationsDOIOpen Access PDF

Abstract

Carbon dioxide removal technologies, such as bioenergy with carbon capture and direct air capture, are valuable for stringent climate targets. Previous work has examined implications of carbon removal, primarily bioenergy-based technologies using integrated assessment models, but not investigated the effects of a portfolio of removal options on power systems in detail. Here, we explore impacts of carbon removal technologies on electric sector investments, costs, and emissions using a detailed capacity planning and dispatch model with hourly resolution. We show that adding carbon removal to a mix of low-carbon generation technologies lowers the costs of deep decarbonization. Changes to system costs and investments from including carbon removal are larger as policy ambition increases, reducing the dependence on technologies like advanced nuclear and long-duration storage. Bioenergy with carbon capture is selected for net-zero electric sector emissions targets, but direct air capture deployment increases as biomass supply costs rise.

Topics & Concepts

Bio-energy with carbon capture and storageCarbon capture and storage (timeline)Carbon dioxideGreenhouse gasEnvironmental scienceBioenergyCarbon fibersBiomass (ecology)Negative carbon dioxide emissionSoftware deploymentWork (physics)Electric powerCarbon sequestrationNatural resource economicsWaste managementClimate changeBiofuelComputer sciencePower (physics)ChemistryEngineeringEcologyEconomicsOrganic chemistryQuantum mechanicsOperating systemComposite numberAlgorithmPhysicsMechanical engineeringBiologyIntegrated Energy Systems OptimizationCarbon Dioxide Capture TechnologiesEnvironmental Impact and Sustainability
Impact of carbon dioxide removal technologies on deep decarbonization of the electric power sector | Litcius