“双碳”目标下成渝地区典型特大山城大气污染物的长期时空演化与协调控制。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2023-09-01 Epub Date: 2023-07-14 DOI:10.1080/10962247.2023.2232744
Xiaoju Li, Luqman Chuah Abdullah, Shafreeza Sobri, Mohamad Syazarudin, Siti Aslina Hussain, Tan Poh Aun, Jinzhao Hu
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引用次数: 0

摘要

明确污染的时空分布和影响机制,是特大城市制定相关大气污染防治措施、实现碳中和目标的前提。重庆是成渝地区的双核重点特大城市之一,也是我国典型的山地城市,环境问题复杂而敏感。本研究旨在调查2014年至2020年间标准污染物的超标水平和时空演变。结果表明,PM10、PM2.5、CO和SO2分别显著下降45.91%、52.86%、38.89%和66.67%。相反,污染物O3的浓度呈现波动增长,并与PM之间存在“拉锯”现象。此外,PM和O3分别在冬季和夏季最高。SO2、NO2、CO和PM呈“U”型,O3呈倒“U”形季节变化。PM和O3浓度仍然远远落后于世界卫生组织2021AQGs标准。大气污染分布存在显著的空间异质性。这些成果对重庆实现PM2.5和O3污染“双控双减”,制定气候协同下的区域碳达峰路线图具有重要意义。此外,它还可以为探索世界各地典型地形的空气污染提供一个重要平台,并为相关流行病学研究提供参考。启示:重庆是成渝地区双核重点特大城市之一,又是典型的山区城市,环境问题复杂敏感。本文以“十四五”规划、“成渝双城经济圈”建设和“双碳”目标为背景,全面探讨了重庆市2014年至2020年在多重政策和最新国际标准(世界卫生组织,2021AQG)背景下,污染物的年、季节超额水平及其时空演变。此外,还讨论了有关污染物协同管理的建议和措施。最后,还提出了限制和建议。明确污染的时空分布和影响机制,是城市制定相关大气污染控制措施、实现碳中和目标的前提。本研究对重庆实现PM2.5和O3污染“双控双减”,研究制定气候协调下的区域碳达峰路线图和空气质量持续改善行动计划具有重要意义。此外,这项研究可以促进我们对复杂地形下空气污染的理解。此外,它还促进了中国国家战略成渝经济圈的建设和美丽西部的建设。此外,它还为当地决策者提供了科学见解,以指导智慧城市规划、产业布局、能源结构和交通规划,改善整个成渝地区的空气质量。最后,这也有利于中国其他地区,甚至世界上地形复杂的特大城市未来的科学研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Long-term spatiotemporal evolution and coordinated control of air pollutants in a typical mega-mountain city of Cheng-Yu region under the "dual carbon" goal.

Clarifying the spatiotemporal distribution and impact mechanism of pollution is the prerequisite for megacities to formulate relevant air pollution prevention and control measures and achieve carbon neutrality goals. Chongqing is one of the dual-core key megacities in Cheng-Yu region and as a typical mountain-city in China, environmental problems are complex and sensitive. This research aims to investigate the exceeding standard levels and spatio-temporal evolution of criteria pollutants between 2014 and 2020. The results indicated that PM10, PM2.5, CO and SO2 were decreased significantly by 45.91%, 52.86%, 38.89% and 66.67%, respectively. Conversely, the concentration of pollutant O3 present a fluctuating growth and found a "seesaw" phenomenon between it and PM. Furthermore, PM and O3 are highest in winter and summer, respectively. SO2, NO2, CO, and PM showed a "U-shaped", and O3 showed an inverted "U-shaped" seasonal variation. PM and O3 concentrations are still far behind the WHO, 2021AQGs standards. Significant spatial heterogeneity was observed in air pollution distribution. These results are of great significance for Chongqing to achieve "double control and double reduction" of PM2.5 and O3 pollution, and formulate a regional carbon peaking roadmap under climate coordination. Besides, it can provide an important platform for exploring air pollution in typical terrain around the world and provide references for related epidemiological research.Implications: Chongqing is one of the dual-core key megacities in Cheng-Yu region and as a typical mountain city, environmental problems are complex and sensitive. Under the background of the "14th Five-Year Plan", the construction of the "Cheng-Yu Dual-City Economic Circle" and the "Dual-Carbon" goal, this article comprehensively discussed the annual and seasonal excess levels and spatiotemporal evolution of pollutants under the multiple policy and the newest international standards (WHO,2021AQG) backgrounds from 2014 to 2020 in Chongqing. Furthermore, suggestions and measures related to the collaborative management of pollutants were discussed. Finally, limitations and recommendations were also put forward.Clarifying the spatiotemporal distribution and impact mechanism of pollution is the prerequisite for cities to formulate relevant air pollution control measures and achieve carbon neutrality goals. This study is of great significance for Chongqing to achieve "double control and double reduction" of PM2.5 and O3 pollution, study and formulate a regional carbon peaking roadmap under climate coordination and an action plan for sustained improvement of air quality.In addition, this research can advanced our understanding of air pollution in complex terrain. Furthermore, it also promote the construction of the China national strategic Cheng-Yu economic circle and build a beautiful west. Moreover, it provides scientific insights for local policymakers to guide smart urban planning, industrial layout, energy structure, and transportation planning to improve air quality throughout the Cheng-Yu region. Finally, this is also conducive to future scientific research in other regions of China, and even megacities with complex terrain in the world.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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