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Emission impacts of China’s solid waste import ban and COVID-19 in the copper supply chain

John Ryter, Xinkai Fu, Karan Bhuwalka, Richard Roth, Elsa Olivetti

2021Nature Communications40 citationsDOIOpen Access PDF

Abstract

Abstract Climate change will increase the frequency and severity of supply chain disruptions and large-scale economic crises, also prompting environmentally protective local policies. Here we use econometric time series analysis, inventory-driven price formation, dynamic material flow analysis, and life cycle assessment to model each copper supply chain actor’s response to China’s solid waste import ban and the COVID-19 pandemic. We demonstrate that the economic changes associated with China’s solid waste import ban increase primary refining within China, offsetting the environmental benefits of decreased copper scrap refining and generating a cumulative increase in CO 2 -equivalent emissions of up to 13 Mt by 2040. Increasing China’s refined copper imports reverses this trend, decreasing CO 2 e emissions in China (up to 180 Mt by 2040) and globally (up to 20 Mt). We test sensitivity to supply chain disruptions using GDP, mining, and refining shocks associated with the COVID-19 pandemic, showing the results translate onto disruption effects.

Topics & Concepts

Supply chainScrapChinaMaterial flow analysisCoronavirus disease 2019 (COVID-19)Refining (metallurgy)Natural resource economicsScenario analysisLife-cycle assessmentMunicipal solid wasteEnvironmental scienceBusinessProduction (economics)EconomicsWaste managementChemistryGeographyMarketingOrganic chemistryPhysical chemistryMedicineArchaeologyDiseaseMacroeconomicsInfectious disease (medical specialty)FinanceEngineeringPathologyRecycling and Waste Management TechniquesMining and Resource ManagementSustainable Supply Chain Management
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