Quantifying effects of solar power adoption on CO2 emissions reduction

Arpita Biswas; Minghao Qiu; Danielle Braun; Francesca Dominici; Daniel Mork

doi:10.1126/sciadv.adq5660

Quantifying effects of solar power adoption on CO₂ emissions reduction

Arpita Biswas
, Minghao Qiu
, Danielle Braun
, Francesca Dominici
, Daniel Mork

Office of the Dean SOMAS

Stony Brook University

Rutgers - The State University of New Jersey, New Brunswick
Harvard University
Dana-Farber Cancer Institute

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

We quantify the effect of solar power adoption in reducing carbon dioxide (CO₂) emissions from the US electricity sector using 5 years of Energy Information Administration data, starting 1 July 2018. By tailoring a distributed lag statistical model, we estimate the immediate and time-lagged effects of increased solar generation on reducing CO₂ emissions within a region. Our analysis highlights how solar adoption in one region affects CO₂ emissions in neighboring regions, emphasizing the potential for collaborative efforts. We estimate that a 15% increase in solar generation is associated with an annual reduction of 8.54 million metric tons (MMT) of CO₂ emissions, contributing 12.38% toward the yearly target of 69 MMT CO₂ reductions needed to cut 1380 MMT of CO₂ in 20 years, as per the Environmental Protection Agency rule on fossil fuel power plants. This study offers insights for policymakers and stakeholders in achieving CO₂ reduction targets through increased solar generation.

Original language	English
Article number	eadq5660
Journal	Science Advances
Volume	11
Issue number	31
DOIs	https://doi.org/10.1126/sciadv.adq5660
State	Published - Aug 1 2025

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abstract = "We quantify the effect of solar power adoption in reducing carbon dioxide (CO2) emissions from the US electricity sector using 5 years of Energy Information Administration data, starting 1 July 2018. By tailoring a distributed lag statistical model, we estimate the immediate and time-lagged effects of increased solar generation on reducing CO2 emissions within a region. Our analysis highlights how solar adoption in one region affects CO2 emissions in neighboring regions, emphasizing the potential for collaborative efforts. We estimate that a 15\% increase in solar generation is associated with an annual reduction of 8.54 million metric tons (MMT) of CO2 emissions, contributing 12.38\% toward the yearly target of 69 MMT CO2 reductions needed to cut 1380 MMT of CO2 in 20 years, as per the Environmental Protection Agency rule on fossil fuel power plants. This study offers insights for policymakers and stakeholders in achieving CO2 reduction targets through increased solar generation.",

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AU - Qiu, Minghao

AU - Braun, Danielle

AU - Dominici, Francesca

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PY - 2025/8/1

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AB - We quantify the effect of solar power adoption in reducing carbon dioxide (CO2) emissions from the US electricity sector using 5 years of Energy Information Administration data, starting 1 July 2018. By tailoring a distributed lag statistical model, we estimate the immediate and time-lagged effects of increased solar generation on reducing CO2 emissions within a region. Our analysis highlights how solar adoption in one region affects CO2 emissions in neighboring regions, emphasizing the potential for collaborative efforts. We estimate that a 15% increase in solar generation is associated with an annual reduction of 8.54 million metric tons (MMT) of CO2 emissions, contributing 12.38% toward the yearly target of 69 MMT CO2 reductions needed to cut 1380 MMT of CO2 in 20 years, as per the Environmental Protection Agency rule on fossil fuel power plants. This study offers insights for policymakers and stakeholders in achieving CO2 reduction targets through increased solar generation.

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Quantifying effects of solar power adoption on CO₂ emissions reduction

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