生物固体
生命周期评估
环境科学
温室气体
协调
标杆管理
可比性
持续性
环境经济学
环境资源管理
环境影响评价
焚化
气候变化
厌氧消化
灵活性(工程)
钥匙(锁)
环境工程
污水污泥
基线(sea)
全球变暖
影响评估
工业生态学
计算机科学
范围(计算机科学)
工程类
作者
Jingwen Luo,Ruth M. Fisher,Shamim Aryampa,Sven Lundie,Thomas Wiedmann
标识
DOI:10.1021/acs.est.5c13019
摘要
A global transition in biosolids processing, driven by concerns over greenhouse gas emissions and emerging contaminants, demands robust sustainability assessments. While life cycle assessment (LCA) is widely adopted, methodological inconsistencies across studies have limited the comparability and reliability of results. This study addresses this gap by systematically reducing variability in published LCA estimates, providing a harmonized baseline for the environmental performance of biosolids processing technologies. The study adopted a harmonization approach to align methodological choices across 19 LCA studies covering four biosolid processing systems. Harmonisation significantly reduced variability and clarified comparative environmental outcomes: anaerobic digestion had the lowest mean harmonized global warming potential, while incineration and composting remained the highest-impact systems. Pyrolysis presented the widest postharmonization range, reflecting ongoing uncertainties and technological heterogeneity. A biosolids LCA benchmarking tool was also proposed to enable the development of customized harmonization results based on site-specific conditions. Moreover, a novel approach, partial harmonization, was introduced to serve as a sensitivity analysis that isolates the influence of individual LCA inputs to identify key sources of variation. Among 92 LCA inputs, this method identified inputs such as electricity mix, system boundaries for energy recovery, and fertilizer substitution assumptions as dominant drivers of variability.
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