Journal
ENVIRONMENTAL SCIENCE & TECHNOLOGY
Volume 57, Issue 43, Pages 16265-16275Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acs.est.3c01820
Keywords
Glasgow Pact; decarbonization; Minamata Convention; mercury; integrated assessment modeling; India
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India is one of the largest emitters of atmospheric anthropogenic mercury and greenhouse gases. This study explores different policy scenarios and finds that focusing on renewable energy can significantly reduce the cost of pollution abatement technologies. However, stricter policies are needed in the iron and steel industry to mitigate mercury emissions.
India is one of the largest emitters of atmospheric anthropogenic mercury (Hg) and the third-largest emitter of greenhouse gases in the world. In the past decade, India has been committed to the Minamata Convention (2017) in addition to the Paris Climate Change Agreement (2015) and the Glasgow Pact (2021). More than 70% to 80% of India's mercury and carbon dioxide emissions occur because of anthropogenic activities from coal usage. This study explores nine policy scenarios, the nationally determined contribution (NDC) scenario, and two deep decarbonization pathways (DDP) with and without mercury control technologies in the energy and carbon-intensive sectors using a bottom-up, techno-economic model, AIM/Enduse India. It is estimated that NDC scenarios reduce mercury emissions by 4%-10% by 2070; while coal intensive (DDP-CCS) pathways and focus on renewables (DDP-R) reduce emissions by 10%-54% and 15%-59%, respectively. Increase in the renewables share (power sector) can result in a significant reduction in the costs of additional pollution-abating technologies in the DDP-R scenario when compared with the coal intensive DDP-CCS scenario. However, the industry sector, especially iron and steel and metal production, will require stringent policies to encourage installation of pollution-abating technologies to mitigate mercury emissions under all the scenarios.
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