Determination of characteristics for mechanically separated organic fraction of MSW at a full-scale anaerobic digestion plant

Yagmur Kabakci, Sadiye Kosar, Ozgur Dogan, Fehmi Gorkem Uctug, Osman Atilla Arikan
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Abstract

Anaerobic digestion (AD) as a waste management method has the potential to reduce greenhouse gas emissions while producing renewable energy, making it a viable option for managing the organic fraction of municipal solid waste (OFMSW). OFMSW characteristics can vary depending on factors such as waste source, composition and separation units. The characteristics of OFMSW are critical for analyzing and monitoring the AD process to optimize biogas production. In this study, the waste composition and physicochemical characteristics of the mechanically separated OFMSW (ms-OFMSW) were determined at a full-scale AD plant in Türkiye. The ms-OFMSW samples were collected monthly after mechanical separation and were subsequently sent to the anaerobic digester. The composition and physicochemical characteristics of the samples were determined by manual sorting. The results showed that the majority of the ms-OFMSW (76.45%±1.71%) was organic, while 8.99%±1.56% was recyclable and 14.56%±1.69% was non-recyclable. Loss of environmental benefits for the recyclable materials was determined using a free online tool provided by Environmental Protection Agency. Metals (399.7 GJ) and plastics (403.7 GJ) both saved nearly the same amount of energy while metals saved the most water (421.8 m3), with the greatest positive impact. Greenhouse benefits ranged from 3 tons to 40 tons of carbon dioxide equivalent for each waste stream. These findings suggest that efficient pre-separation units can improve the anaerobic digestibility of OFMSW, while also providing greater environmental benefits by preventing recyclable waste from the anaerobic digester. In addition to encouraging source separation applications, this study demonstrates the need for improved technologies to separate OFMSW from mixed MSW.

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确定全规模厌氧消化工厂机械分离的城市固体废物有机部分的特征
摘要 作为一种废物管理方法,厌氧消化(AD)具有减少温室气体排放的潜力,同时还能产生可再生能源,因此是管理城市固体废物(OFMSW)中有机部分的可行选择。城市固体废物的特性会因废物来源、成分和分离装置等因素而有所不同。OFMSW 的特性对于分析和监控厌氧消化(AD)过程以优化沼气生产至关重要。本研究在土耳其的一家全规模厌氧消化(AD)工厂测定了机械分离的 OFMSW(ms-OFMSW)的废物成分和理化特性。机械分离后的超微细废水样本每月收集一次,随后送入厌氧消化器。样品的成分和理化特性是通过人工分类确定的。结果表明,大部分(76.45%±1.71%)的微量超微细有机物为有机物,8.99%±1.56%为可回收物,14.56%±1.69%为不可回收物。可回收材料的环境效益损失是通过环境保护局提供的免费在线工具确定的。金属(399.7 千兆焦耳)和塑料(403.7 千兆焦耳)节约的能源几乎相同,而金属节约的水量最多(421.8 立方米),产生的积极影响最大。每种废物流的温室效应从 3 吨到 40 吨二氧化碳当量不等。这些研究结果表明,高效的预分离装置可以提高 OFMSW 的厌氧消化率,同时还可以防止可回收废物进入厌氧消化器,从而带来更大的环境效益。除了鼓励源头分离应用外,这项研究还表明,需要改进技术,将 OFMSW 从混合 MSW 中分离出来。 图表摘要
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