Detecting and sourcing GHGs and atmospheric trace gases in a municipal waste treatment plant using coupled chemistry and isotope compositions

IF 7.1 2区 环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL Waste management Pub Date : 2024-10-10 DOI:10.1016/j.wasman.2024.10.003
Yaroslav Bezyk , Maciej Górka , Łukasz Kruszewski , Jarosław Nęcki , Izabela Sówka , Justyna Jońca , Paweł Jagoda , David Widory
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Abstract

Landfill operations and waste processing facilities are important and highly heterogeneous sources of both greenhouse gases (GHGs) and non-GHG air pollutants in the atmosphere. This arises the need for detailed apportionment of waste sources in order to locate and subsequently reduce emissions from landfills. Here, a time series of in situ measurements of atmospheric trace gases and spatial allocation of specific emission source types under different processing phases and environmental conditions were conducted in and in the surroundings of a Municipal Solid Waste Treatment Plant (MSWTP) in south-western Poland. Results revealed that several individual GHG sources dominated across the waste processing facility and that GHGs concentrations displayed spatial seasonality. An increase in the ground-level CH4 concentrations, from ∼ 30.3 to 56.3 ppmv, was observed close (∼5 – 10 m) to the major emission sources within the MSWTP. While hotspot areas generally yielded elevated CH4 concentrations near the soil surface, these were relatively low (2.4 to 8.9 ppmv) along the facility’s fence line. The study of the corresponding δ13C delineated the extent of dispersion plumes downwind emission hotspots, characterized by a 13C depletion (around 4.0 ‰) in the atmospheric CH4 and CO2. For CH4, emissions were isotopically discriminated between the extraction wells at active quarters/cells (δ13C = –58.3 ± 1.1 ‰) and biogas produced in the biological waste treatment installation (δ13C = –62.7 ± 0.7 ‰). Most of the trace compounds (non-methane hydrocarbons, halocarbons, oxygen-bearing organic gases, ketones, nitrogenous and sulphurous gases, and other admixture compounds) detected at the ground surface were linked to the CH4- and CO2-rich spots. Despite the relatively high variability in the concentrations of organic and inorganic compounds observed at the MSWTP active zones, our results suggest that they do not have a meaningful impact on the surrounding air quality.

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利用耦合化学和同位素成分检测城市垃圾处理厂的温室气体和大气痕量气体并确定其来源。
垃圾填埋场和废物处理设施是大气中温室气体(GHGs)和非温室气体(Non-GHG)空气污染物的重要且高度异质的来源。因此,需要对废物源进行详细划分,以确定垃圾填埋场的位置并减少其排放。在此,我们在波兰西南部的一个城市固体废物处理厂(MSWTP)及其周边地区,对大气中的痕量气体进行了时间序列原位测量,并对不同处理阶段和环境条件下的特定排放源类型进行了空间分配。结果表明,在整个废物处理设施中,几个单独的温室气体源占主导地位,而且温室气体浓度显示出空间季节性。在 MSWTP 内主要排放源附近(5 - 10 米)观察到地面 CH4 浓度从 30.3 ppmv 上升到 56.3 ppmv。虽然热点区域土壤表面附近的 CH4 浓度普遍较高,但设施围栏沿线的浓度相对较低(2.4 至 8.9 ppmv)。对相应的 δ13C 进行的研究划定了下风向排放热点的扩散羽流范围,其特征是大气中的 CH4 和 CO2 出现 13C 损耗(约 4.0 ‰)。就 CH4 而言,对活动区/小区的抽水井(δ13C = -58.3 ± 1.1 ‰)和生物废物处理设施产生的沼气(δ13C = -62.7 ± 0.7 ‰)的排放进行了同位素鉴别。地表检测到的大多数痕量化合物(非甲烷碳氢化合物、卤代碳氢化合物、含氧有机气体、酮类、含氮和含硫气体以及其他混合化合物)都与富含 CH4 和 CO2 的点有关。尽管在 MSWTP 活性区观察到的有机和无机化合物浓度变化相对较大,但我们的结果表明,它们对周围空气质量的影响并不大。
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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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