Litcius/Paper detail

Dynamic Accounting of Carbon Uptake in the Built Environment

Elisabeth Van Roijen, Seth Kane, Fan Jin, Josefine A. Olsson, Baishakhi Bose, Thomas P. Hendrickson, Sarah Nordahl, Alissa Kendall, Corinne D. Scown, Sabbie A. Miller

2025Environmental Science & Technology12 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Transforming building materials from net life-cycle CO 2 e emitters to carbon sinks is a key pathway towards decarbonizing the industrial sector. Current life-cycle assessments of materials (particularly “low-carbon” materials) often focus on cradle-to-gate emissions, which can exclude emissions and uptake (i.e., fluxes) later in the materials’ life-cycle. Further, conventional CO 2 e emission characterization disregards the dynamic effects of the timing of emissions and uptake on cumulative radiative forcing from processes like manufacturing, biomass growth, and the decadal carbon storage in long-lived building materials. This work presents a framework to analyze the cradle-to-grave CO 2 e balance of building materials using a time-dependent global warming potential calculation. We apply this framework in the dynamic accounting of carbon uptake in the built environment (D-CUBE) tool and examine two case studies: concrete and cross-laminated timber (CLT). When accounting for dynamic effects, the long storage time of biogenic carbon in CLT results in reduced warming, while the slow rate of uptake via concrete carbonation does not result in significant reductions in global warming. The D-CUBE tool allows for consistent comparisons across materials and emissions mitigation strategies at varying life-cycle stages and can be adapted to other materials or systems with different lifespans and applications. The flexibility of D-CUBE and the ability to identify CO 2 e emission hot-spot life-cycle stages will be instrumental in identifying pathways to achieving net-carbon-sequestering building materials.

Topics & Concepts

Carbon accountingEnvironmental scienceCarbon fibersAccountingBusinessClimate changeComputer scienceEcologyBiologyComposite numberAlgorithmEnvironmental Impact and SustainabilityBuilding Energy and Comfort OptimizationCarbon Dioxide Capture Technologies