Assessing the Relative Climate Impact of Carbon Utilization for Concrete, Chemical, and Mineral Production

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Estimates show that 6.2 gigatons of carbon dioxide (CO2) can be captured and utilized across three pathways, concrete, chemical, and minerals, by 2050. However, it is difficult to compare the climate benefit across these three carbon capture and utilization (CCU) pathways to determine the most effective use of captured CO2. The life cycle assessment methods to evaluate the climate benefit of CCU chemicals should additionally account for the change in material properties of concrete due to CO2 utilization. Furthermore, with most CO2 utilization technologies being in the early stages of research and development, the uncertainty and variability in process and inventory data present a significant challenge in evaluating the climate benefit. We present a stochastically determined climate return on investment (ROI) metric to rank and prioritize CO2 utilization across 20 concrete, chemical and mineral pathways based on the realized climate benefit. We show that two concrete pathways, which use CO2 during concrete mixing, and two chemical pathways, which produce formic acid through hydrogenation of CO2 and carbon monoxide through dry reforming of methane, generate the greatest climate ROI and are the only CCU pathways with a higher likelihood of generating a climate benefit than a climate burden.

carbon capture and utilization (CCU)
life cycle assessment (LCA)
climate impact
CO2 utilization for concrete production
CO2 utilization for chemical production
CO2 utilization for mineral production
Publication Type: 
Journal Article
Environmental Science and Technology
Date Published: 
August 22, 2021
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Full Citation: 
Ravikumar, Dwarakanath, Gregory A. Keoleian, Shelie A. Miller, and Volker Sick. (2021) “Assessing the Relative Climate Impact of Carbon Utilization for Concrete, Chemical, and Mineral Production.” Environmental Science and Technology XX(XX): 1-13.
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