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Adapting Technology Learning Curves for Prospective Techno-Economic and Life Cycle Assessments of Emerging Carbon Capture and Utilization Pathways

Grant Faber, Andrew W. Ruttinger, Till Strunge, Tim Langhorst, Arno Zimmermann, Mitchell K. van der Hulst, Farid Bensebaa, Sheikh Moni, Ling Tao

2022Frontiers in Climate48 citationsDOIOpen Access PDF

Abstract

Comparisons of emerging carbon capture and utilization (CCU) technologies with equivalent incumbent technologies are necessary to support technology developers and to help policy-makers design appropriate long-term incentives to mitigate climate change through the deployment of CCU. In particular, early-stage CCU technologies must prove their economic viability and environmental reduction potential compared to already-deployed technologies. These comparisons can be misleading, as emerging technologies typically experience a drastic increase in performance and decrease in cost and greenhouse gas emissions as they develop from research to mass-market deployment due to various forms of learning. These changes complicate the interpretation of early techno-economic assessments (TEAs) and life cycle assessments (LCAs) of emerging CCU technologies. The effects of learning over time or cumulative production themselves can be quantitatively described using technology learning curves (TLCs). While learning curve approaches have been developed for various technologies, a harmonized methodology for using TLCs in TEA and LCA for CCU in particular is required. To address this, we describe a methodology that incorporates TLCs into TEA and LCA to forecast the environmental and economic performance of emerging CCU technologies. This methodology is based on both an evaluation of the state of the art of learning curve assessment and a literature review of TLC approaches developed in various manufacturing and energy generation sectors. Additionally, we demonstrate how to implement this methodology using a case study on a CO 2 mineralization pathway. Finally, commentary is provided on how researchers, technology developers, and LCA and TEA practitioners can advance the use of TLCs to allow for consistent, high-resolution modeling of technological learning for CCU going forward and enable holistic assessments and fairer comparisons with other climate technologies.

Topics & Concepts

Software deploymentLearning curveEmerging technologiesLife-cycle assessmentGreenhouse gasHealth technologyComputer scienceIncentiveEnvironmental economicsRisk analysis (engineering)Production (economics)BusinessHealth careArtificial intelligenceEconomicsEconomic growthMacroeconomicsOperating systemBiologyEcologyMicroeconomicsCO2 Sequestration and Geologic InteractionsCarbon Dioxide Capture TechnologiesEnvironmental Impact and Sustainability
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