The role of global waste management and circular economy towards carbon neutrality

IF 10.9 1区环境科学与生态学 Q1 ENVIRONMENTAL STUDIES

Sustainable Production and Consumption Pub Date : 2024-11-17 DOI:10.1016/j.spc.2024.11.021

Phyo Zaw Oo , Trakarn Prapaspongsa , Vladimir Strezov , Nazmul Huda , Kazuyuki Oshita , Masaki Takaoka , Jun Ren , Anthony Halog , Shabbir H. Gheewala

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引用次数: 0

Abstract

Solid waste management is a cross-cutting issue that significantly influences multiple aspects of sustainable development globally. The waste sector is a major anthropogenic source of global greenhouse gas (GHG) emissions. Most global GHG assessments of waste management rely on generic data due to limitations in available data. This research used reflective inventory data for municipal solid waste (MSW) treatment systems related to the income levels of countries, resulting in more context-specific and comprehensive assessments of GHG emissions. This study aims to assess life cycle GHG emissions from the global MSW management sector for the years 2023, 2030, and 2050 and then analyses the global and regional waste management goals set by the United Nations Environment Programme (UNEP) and the European Union (EU) to identify hotspots in the MSW management systems and critical factors that influence GHG emissions from the waste sector. The study was conducted in accordance with the standards outlined in ISO 14067:2018. The results show that the average global GHG emissions from 1 tonne of MSW in 2023 based on the existing MSW management practices was approximately 89.7 kg CO_2e. The major contributor was the open dumping of MSW, contributing almost 70 % of GHG emissions. The global MSW management sector emitted a total of 173.2 Mt CO_2e GHG emissions in 2023. If no improvements are made to existing systems, GHG emissions from the waste sector are projected to increase to 203.4 Mt CO_2e by 2030, and to 289.5 Mt CO_2e by 2050. Achieving waste management goals can reduce GHG emissions by approximately 1 % to more than 160 %. The implementation of the circular economy in the waste sector has the potential to achieve net zero emissions from the global MSW management sector by 2030 and 2050. This study provides achievable MSW management targets for the world and highlights key factors to achieve carbon neutrality from the waste sector. Prioritising policies such as upgrading open dumps, standardising household-level waste separation procedures, minimising food waste, establishing national recycling targets, and promoting circular economy through a zero-waste approach could substantially reduce GHG emissions from the waste sector. These findings are important for the adoption of circular economy principles in MSW management systems to effectively support the pursuit of carbon neutrality goals.

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全球废物管理和循环经济对实现碳中和的作用

固体废物管理是一个贯穿各领域的问题，对全球可持续发展的多个方面产生重大影响。废物部门是全球温室气体（GHG）排放的主要人为来源。由于现有数据的局限性，大多数全球废物管理温室气体评估都依赖于通用数据。本研究使用了与各国收入水平相关的城市固体废物（MSW）处理系统的反映性清单数据，从而对温室气体排放进行了更具体、更全面的评估。本研究旨在评估 2023 年、2030 年和 2050 年全球城市固体废物管理部门的生命周期温室气体排放量，然后分析联合国环境规划署（UNEP）和欧盟（EU）制定的全球和地区废物管理目标，以确定城市固体废物管理系统中的热点以及影响废物部门温室气体排放的关键因素。这项研究是根据 ISO 14067:2018 中概述的标准进行的。结果表明，根据现有的都市固态垃圾管理方法，2023 年全球 1 吨都市固态垃圾的平均温室气体排放量约为 89.7 千克二氧化碳当量。造成温室气体排放的主要原因是城市固体废弃物的露天倾倒，占温室气体排放量的近 70%。2023 年，全球城市固体废物管理部门的温室气体排放总量为 1.732 亿吨 CO2e。如果不对现有系统进行改进，预计到 2030 年，废物部门的温室气体排放量将增至 2.034 亿二氧化碳当量，到 2050 年将增至 2.895 亿二氧化碳当量。实现废物管理目标可减少约 1%至 160%以上的温室气体排放。在废弃物领域实施循环经济有可能在 2030 年和 2050 年之前实现全球都市固体废弃物管理领域的净零排放。本研究为全球提供了可实现的城市固体废物管理目标，并强调了实现废物部门碳中和的关键因素。优先考虑改造露天垃圾场、规范家庭垃圾分类程序、最大限度减少厨余垃圾、制定国家回收目标以及通过零废弃物方法促进循环经济等政策，可大幅减少废弃物部门的温室气体排放。这些发现对于在城市固体废物管理系统中采用循环经济原则以有效支持碳中和目标的实现非常重要。

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来源期刊

Sustainable Production and Consumption Environmental Science-Environmental Engineering

CiteScore

17.40

自引率

7.40%

发文量

389

审稿时长

13 days

期刊介绍： Sustainable production and consumption refers to the production and utilization of goods and services in a way that benefits society, is economically viable, and has minimal environmental impact throughout its entire lifespan. Our journal is dedicated to publishing top-notch interdisciplinary research and practical studies in this emerging field. We take a distinctive approach by examining the interplay between technology, consumption patterns, and policy to identify sustainable solutions for both production and consumption systems.