Climate change impacts of biological treatment of liquid digestate from the anaerobic digestion of food waste.

IF 7.1 2区环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL

Waste management Pub Date : 2025-02-01 Epub Date: 2024-12-18 DOI:10.1016/j.wasman.2024.12.013

A S Varling, V Chrysochoidis, V Bisinella, B Valverde-Pérez, T H Christensen

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引用次数: 0

Abstract

The liquid fraction of digestate (LFD) from anaerobic digestion of food waste contains high nitrogen concentrations, and in some countries, the LFD is treated as wastewater. We modelled alternative LFD treatments, including pretreatment with the partial nitritation Anammox (PNA) process. The PNA effluent is discharged to the sewers to undergo further treatment by conventional nitrification and (post- or pre-) denitrification. Life-cycle inventories were developed for the LFD treatment alternatives, including N₂O emissions and electricity consumption estimates. The climate change (CC) impact was estimated using life cycle assessment in three different energy systems ranging from fossil-based to fully renewable. In the fossil energy system, pretreatment with PNA was attractive, while in the more renewable energy systems, the PNA process did not improve the CC account due to high N₂O emissions. Pre-denitrification is the most attractive LFD treatment technology in a fully renewable energy system. Linking the LFD treatment to the anaerobic digestion of food waste showed that LFD treatment is a significant contributor to the overall CC account. As we move towards less fossil-based electricity, the anaerobic digestion of food waste constitutes a CC load of 350-450 kg CO₂-eq/tonne biowaste, of which up to a third can be attributed to the LFD treatment. The N₂O emissions are the main contributor, constituting up to 50 % in a fossil-based energy system and even higher in a renewable energy system. We conclude that the LFD treatment must be addressed in assessing anaerobic digestion when the LFD is discharged to the sewer. Our study also points to the need to find alternative ways of managing the LFD.

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对食物垃圾厌氧消化产生的液态沼渣进行生物处理对气候变化的影响。

来自食物垃圾厌氧消化的消化液（LFD）含有高浓度氮，在一些国家，LFD被当作废水处理。我们模拟了几种LFD处理方法，包括部分硝化厌氧氨氧化（PNA）工艺的预处理。PNA废水被排放到下水道，通过常规硝化和（后或预）反硝化进行进一步处理。开发了LFD处理方案的生命周期清单，包括N2O排放和电力消耗估算。利用从化石燃料到完全可再生能源的三种不同能源系统的生命周期评估来估计气候变化（CC）的影响。在化石能源系统中，PNA预处理是有吸引力的，而在更多的可再生能源系统中，由于N2O的高排放，PNA过程并没有改善CC账户。预反硝化是全可再生能源系统中最具吸引力的LFD处理技术。将LFD处理与食物垃圾的厌氧消化联系起来表明，LFD处理是总体CC账户的重要贡献者。随着我们转向更少的化石燃料电力，食物垃圾的厌氧消化构成了每吨生物垃圾350-450千克二氧化碳当量的CC负荷，其中高达三分之一可归因于LFD处理。一氧化二氮的排放是主要的贡献者，在化石能源系统中占50%，在可再生能源系统中甚至更高。我们的结论是，当LFD排放到下水道时，在评估厌氧消化时必须解决LFD处理问题。我们的研究还指出，需要找到管理LFD的替代方法。

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 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)