Assessing the Environmental Impact of Biobased Exterior Insulation Panel: A Focus on Carbon Uptake and Embodied Emissions

Energies Pub Date : 2024-07-11 DOI:10.3390/en17143406
Md Sahadat Hossain, Obste Therasme, Paul L. Crovella, Timothy A Volk
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Abstract

There are millions of older buildings in the colder climate regions of the world where envelope upgrades are needed to improve the indoor quality of buildings, reduce energy costs, and lower greenhouse gas (GHG) emissions. This study assessed the global warming potential (GWP) with and without accounting for CO2 uptake in trees (biogenic carbon) for 20- and 100-year timespans of an exterior insulation panel. The panels consisted of six different materials with three-ply cross-laminated timber (CLT) as its main component. The net GWP100-Uptake impact when explicitly accounting for biogenic CO2 uptake over a 100-year time period was 7.2 kgCO2-eq/m2 which was 92.7% lower than if it was not included (GWP100-Fossil of 98.7 kgCO2-eq/m2). Using a 20-year GWP increased the impact of the GWP fossil by 21.7% and the CO2 uptake scenario by 298%. The major contributor was the energy used for manufacturing panel’s materials (53%), with embodied carbon in bio-products primarily responsible for offsetting emissions. The findings will be helpful for policymakers in setting net-zero carbon emission goals for embodied and operational impacts of building materials.
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评估生物基外墙保温板的环境影响:关注碳吸收和体现排放
在全球气候寒冷的地区,有数百万幢老旧建筑需要进行围护结构升级,以改善建筑的室内质量、降低能源成本和温室气体(GHG)排放。这项研究评估了外墙保温板在 20 年和 100 年时间跨度内,在考虑和不考虑树木吸收二氧化碳(生物碳)的情况下的全球升温潜能值(GWP)。保温板由六种不同的材料组成,主要成分为三层交叉层压木材(CLT)。在明确考虑 100 年生物二氧化碳吸收量的情况下,GWP100-吸收量净影响为 7.2 kgCO2-eq/m2,比不考虑生物二氧化碳吸收量的情况(GWP100-化石为 98.7 kgCO2-eq/m2)低 92.7%。使用 20 年全球升温潜能值,全球升温潜能值化石的影响增加了 21.7%,二氧化碳吸收情景的影响增加了 298%。制造人造板材料所使用的能源(53%)是主要的排放源,而生物产品中的内含碳则是抵消排放的主要原因。这些研究结果将有助于政策制定者为建筑材料的内含碳和运营影响设定净零碳排放目标。
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