Evaluating emission reduction potential and co-benefits of CO2 and air pollutants from mobile sources: A case study in Shanghai, China
•The entire mobile source sector is taken as research object.•Emission reduction potential of CO2 and air pollutants is predicted.•Co-benefits of reducing CO2 and air pollutants are quantitatively evaluated.•Mobile source sector could achieve peak CO2 emissions in 2035.•VOCs, SO2, NOx, and CO2 exhib...
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| Veröffentlicht in: | Resources, conservation and recycling conservation and recycling, 2024-03, Vol.202, p.107347, Article 107347 |
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| creator | Shi, Xiahong Huang, Zining Dai, Yuntong Du, Weiyi Cheng, Jinping |
| description | •The entire mobile source sector is taken as research object.•Emission reduction potential of CO2 and air pollutants is predicted.•Co-benefits of reducing CO2 and air pollutants are quantitatively evaluated.•Mobile source sector could achieve peak CO2 emissions in 2035.•VOCs, SO2, NOx, and CO2 exhibit relatively high levels of synergy.
Mobile sources have significantly contributed to local carbon dioxide (CO2) and air pollutants (APs) emissions, but researches on their overall co-control remain limited. This study, aiming at Shanghai's overall mobile sources, conducted the prediction of emission reduction potential, co-benefits assessment and peak CO2 emissions analysis. Results revealed a reduction of 55.9% in CO2 emissions and 64.1% in APs equivalents by 2050 under the strictest scenario. Without additional mitigation, CO2 total emissions in 2050 would approach 120 Mt. Motor vehicles contribute the most to CO2 and CO emissions, while ships serve as the primary source of other APs. Motor vehicles' CO2 emissions could peak in 2033 (42.57∼47.47 Mt), with the overall mobile sources achieving peak emissions two years later (56.21∼63.55 Mt). VOCs, SO2, NOx, and CO2 exhibit relatively high synergy, and the emission reduction degree of NOx would be higher than that of CO2, while other pollutants are the opposite.
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| doi_str_mv | 10.1016/j.resconrec.2023.107347 |
| format | Article |
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Mobile sources have significantly contributed to local carbon dioxide (CO2) and air pollutants (APs) emissions, but researches on their overall co-control remain limited. This study, aiming at Shanghai's overall mobile sources, conducted the prediction of emission reduction potential, co-benefits assessment and peak CO2 emissions analysis. Results revealed a reduction of 55.9% in CO2 emissions and 64.1% in APs equivalents by 2050 under the strictest scenario. Without additional mitigation, CO2 total emissions in 2050 would approach 120 Mt. Motor vehicles contribute the most to CO2 and CO emissions, while ships serve as the primary source of other APs. Motor vehicles' CO2 emissions could peak in 2033 (42.57∼47.47 Mt), with the overall mobile sources achieving peak emissions two years later (56.21∼63.55 Mt). VOCs, SO2, NOx, and CO2 exhibit relatively high synergy, and the emission reduction degree of NOx would be higher than that of CO2, while other pollutants are the opposite.
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Mobile sources have significantly contributed to local carbon dioxide (CO2) and air pollutants (APs) emissions, but researches on their overall co-control remain limited. This study, aiming at Shanghai's overall mobile sources, conducted the prediction of emission reduction potential, co-benefits assessment and peak CO2 emissions analysis. Results revealed a reduction of 55.9% in CO2 emissions and 64.1% in APs equivalents by 2050 under the strictest scenario. Without additional mitigation, CO2 total emissions in 2050 would approach 120 Mt. Motor vehicles contribute the most to CO2 and CO emissions, while ships serve as the primary source of other APs. Motor vehicles' CO2 emissions could peak in 2033 (42.57∼47.47 Mt), with the overall mobile sources achieving peak emissions two years later (56.21∼63.55 Mt). VOCs, SO2, NOx, and CO2 exhibit relatively high synergy, and the emission reduction degree of NOx would be higher than that of CO2, while other pollutants are the opposite.
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Mobile sources have significantly contributed to local carbon dioxide (CO2) and air pollutants (APs) emissions, but researches on their overall co-control remain limited. This study, aiming at Shanghai's overall mobile sources, conducted the prediction of emission reduction potential, co-benefits assessment and peak CO2 emissions analysis. Results revealed a reduction of 55.9% in CO2 emissions and 64.1% in APs equivalents by 2050 under the strictest scenario. Without additional mitigation, CO2 total emissions in 2050 would approach 120 Mt. Motor vehicles contribute the most to CO2 and CO emissions, while ships serve as the primary source of other APs. Motor vehicles' CO2 emissions could peak in 2033 (42.57∼47.47 Mt), with the overall mobile sources achieving peak emissions two years later (56.21∼63.55 Mt). VOCs, SO2, NOx, and CO2 exhibit relatively high synergy, and the emission reduction degree of NOx would be higher than that of CO2, while other pollutants are the opposite.
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| subjects | air Air pollutants Carbon dioxide case studies China Co-benefits Emission reduction potential Mobile sources prediction |
| title | Evaluating emission reduction potential and co-benefits of CO2 and air pollutants from mobile sources: A case study in Shanghai, China |
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