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Main Authors: Ding, Yifu, Mallapragada, Dharik, Stoner, Robert James
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2409.18981
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author Ding, Yifu
Mallapragada, Dharik
Stoner, Robert James
author_facet Ding, Yifu
Mallapragada, Dharik
Stoner, Robert James
contents India set two Nationally Determined Contribution targets to achieve the net zero carbon emission goal by 2070, which requires deep decarbonization of India's power generation sector. Yet, coal power generation contributes to more than 60\% of its total power generation, and policies still permit further coal fleet expansion and lifetime extensions. In this paper, we investigate the role of retrofitting India's coal plants for carbon capture and storage and biomass co-firing in developing the net-zero power system. We model the power generation and transmission network expansions across 30 Indian states in four representative grid evolution scenarios under progressively tighter carbon emission caps, taking into account sub-national coal price variation and thermal efficiency of individual coal plants. We find that coal plant retrofitting could happen by 2035 when an annual carbon cap for the power generation sector is less than 1,000 million tons CO$_2$. This reduces the unabated coal plant capacity, electricity generation, and carbon abatement costs. Exploiting renewable energy potentials solely, such as wind resources, could reduce carbon abatement costs significantly but will result in low coal plant utilization and uneven renewable generation deployment between Southern and Central regions concerning energy justice.
format Preprint
id arxiv_https___arxiv_org_abs_2409_18981
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle The role of coal plant retrofitting strategies in developing India's net-zero power system: a data-driven sub-national analysis
Ding, Yifu
Mallapragada, Dharik
Stoner, Robert James
Physics and Society
India set two Nationally Determined Contribution targets to achieve the net zero carbon emission goal by 2070, which requires deep decarbonization of India's power generation sector. Yet, coal power generation contributes to more than 60\% of its total power generation, and policies still permit further coal fleet expansion and lifetime extensions. In this paper, we investigate the role of retrofitting India's coal plants for carbon capture and storage and biomass co-firing in developing the net-zero power system. We model the power generation and transmission network expansions across 30 Indian states in four representative grid evolution scenarios under progressively tighter carbon emission caps, taking into account sub-national coal price variation and thermal efficiency of individual coal plants. We find that coal plant retrofitting could happen by 2035 when an annual carbon cap for the power generation sector is less than 1,000 million tons CO$_2$. This reduces the unabated coal plant capacity, electricity generation, and carbon abatement costs. Exploiting renewable energy potentials solely, such as wind resources, could reduce carbon abatement costs significantly but will result in low coal plant utilization and uneven renewable generation deployment between Southern and Central regions concerning energy justice.
title The role of coal plant retrofitting strategies in developing India's net-zero power system: a data-driven sub-national analysis
topic Physics and Society
url https://arxiv.org/abs/2409.18981