Environmental and socio-economic implications of woody biomass co-firing at coal-fired power plants

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Paul Picciano , Francisco X. Aguilar , Dallas Burtraw , Ashkan Mirzaee
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Abstract

We apply a detailed power sector model to explore the near-term role of woody biomass co-firing at existing coal facilities in the Eastern US in the decarbonization of US electricity generation. We evaluate five public policy interventions: a biomass co-firing subsidy, two carbon emissions fees, and two clean energy standards. Treating woody biomass as a carbon neutral feedstock, we find co-firing weakly supports decarbonization. However, policies subsidizing co-firing can delay retirement of coal facilities and reduce generation from nuclear, natural gas, wind and solar. Consequently, corresponding sector-wide emissions of CO2 and SO2 may increase (slightly) due to greater utilization of coal plants including relatively inefficient facilities. We assume NOX emissions increase due to generation efficiency losses, but this remains uncertain. Due to higher emissions, a biomass subsidy for co-firing yields small (near zero) economic welfare losses, while in contrast other policies advance decarbonization and yield significant welfare gains. We find justification for biomass use from a local perspective based on first-order impacts on employment and economy activity, but less so air quality.

燃煤发电厂木质生物质共烧的环境和社会经济影响
我们应用一个详细的电力部门模型来探索美国东部现有煤炭设施的木质生物质联合燃烧在美国发电脱碳中的近期作用。我们评估了五项公共政策干预措施:一项生物质联产补贴、两项碳排放费和两项清洁能源标准。将木质生物质作为碳中和的原料处理,我们发现共烧对脱碳的支持较弱。然而,补贴共烧的政策可能会推迟煤炭设施的退役,并减少核能、天然气、风能和太阳能的发电量。因此,由于燃煤电厂(包括相对低效的设施)的更多利用,相应的部门范围内的二氧化碳和二氧化硫排放量可能会(略有)增加。我们假设NOX排放量由于发电效率损失而增加,但这仍然不确定。由于排放量更高,对共烧的生物质补贴产生的经济福利损失很小(接近零),而相比之下,其他政策促进了脱碳,并产生了显著的福利收益。我们从当地的角度出发,根据对就业和经济活动的一阶影响,找到了使用生物质的理由,但对空气质量的影响较小。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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