Assessment of whole-site methane emissions from anaerobic digestion plants: Towards establishing emission factors for various plant configurations

IF 7.1 2区 环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL
Viktoria Wechselberger , Marlies Hrad , Marcel Bühler , Thomas Kupper , Bernhard Spangl , Anders Michael Fredenslund , Marion Huber-Humer , Charlotte Scheutz
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Abstract

This study examines methane (CH4) emission factors from biogas and wastewater treatment plants, based on primary and secondary data collected from 109 facilities. Primary emission data were measured at 19 facilities representing prevalent plant configurations across Europe. Statistical analysis highlights two categorical variables, namely primary feedstock and plant size, expressed as CH4 production (≤ 250  kg h−1: small and medium-sized plants, > 250  kg h−1: large plants), each of which has a significant impact on whole-site CH4 emissions. Additionally, digestate storage (gastight vs. not-gastight) has a meaningful effect when considering CH4 production as a continuous variable in the statistical analysis.
Our results indicate that wastewater treatment plants have the highest average CH4 losses (7.0 % of CH4 produced, n = 31 or 0.10  kg population equivalent (PE)-1 yr−1, n = 28), followed by manure-based plants (3.7 %, n = 49), biowaste treatment facilities (2.8 %, n = 11) and energy crop-processing plants (1.9 %, n = 14). Furthermore, small and medium-sized plants have elevated emissions (5.6 %, n = 67) compared to larger counterparts (2.2 %, n = 42), primarily attributed to the absence of gastight digestate storage. Emissions tend to be lower with gastight digestate storage (2.7 %, n = 61) than not-gastight storage options (6.2 %, n = 48).
Emission factors were determined for normal operating conditions, with a further investigation into other-than-normal operating conditions revealing temporal or constant emission peaks in eight out of 19 facilities. These peaks, suggesting potential areas for targeted mitigation strategies, were attributed to pressure relief valves, flare ignition problems and major leakages.
厌氧消化工厂全厂甲烷排放评估:为各种工厂配置确定排放系数。
本研究根据从 109 个设施收集的一级和二级数据,研究了沼气和污水处理厂的甲烷(CH4)排放因子。主要排放数据是在 19 个代表欧洲普遍工厂配置的设施中测量的。统计分析强调了两个分类变量,即主要原料和工厂规模,以 CH4 产量表示(≤250 kgh-1:中小型工厂,>250 kgh-1:大型工厂),其中每个变量都对整个工厂的 CH4 排放量有显著影响。此外,在统计分析中将甲烷产量视为连续变量时,沼渣储存(密闭与非密闭)也会产生有意义的影响。我们的研究结果表明,污水处理厂的平均甲烷损失量最高(占甲烷产量的 7.0%,n = 31 或 0.10 千克人口当量(PE)-1 年-1,n = 28),其次是粪便处理厂(3.7%,n = 49)、生物垃圾处理设施(2.8%,n = 11)和能源作物加工厂(1.9%,n = 14)。此外,中小型工厂的排放量(5.6%,n = 67)高于大型工厂(2.2%,n = 42),主要原因是没有气密沼渣存储。气密沼渣储存的排放量(2.7%,n = 61)往往低于非气密储存方案(6.2%,n = 48)。排放因子是在正常运行条件下确定的,对非正常运行条件的进一步调查显示,在 19 个设施中,有 8 个出现了时间性或持续性排放峰值。这些峰值表明可能需要采取有针对性的减排战略,其原因是泄压阀、火炬点火问题和重大泄漏。
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
Waste management
Waste management 环境科学-工程:环境
CiteScore
15.60
自引率
6.20%
发文量
492
审稿时长
39 days
期刊介绍: Waste Management is devoted to the presentation and discussion of information on solid wastes,it covers the entire lifecycle of solid. wastes. Scope: Addresses solid wastes in both industrialized and economically developing countries Covers various types of solid wastes, including: Municipal (e.g., residential, institutional, commercial, light industrial) Agricultural Special (e.g., C and D, healthcare, household hazardous wastes, sewage sludge)
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