进一步减少氮氧化物排放以改善长江三角洲空气质量：来自氮氧化物和挥发性有机化合物排放控制措施的数值证据

IF 4.5 2区地球科学 Q1 METEOROLOGY & ATMOSPHERIC SCIENCES

Atmospheric Research Pub Date : 2025-03-29 DOI:10.1016/j.atmosres.2025.108103

Chaoshun Liu , Junyue Wang , Chungang Fang , Kaixu Bai

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引用次数: 0

摘要

长江三角洲是中国人口最密集的地区之一，缓解该地区的空气污染对于减少与污染相关的健康影响至关重要。本研究使用WRF-Chem模型模拟PM2.5和O3这两种关键污染物的浓度，并评估它们对各种排放控制措施的响应。我们的目标是为制定有效的清洁空气政策提供可行的见解，以改善长三角未来的空气质量。利用综合空气质量指数（CAQI）进行的敏感性分析强调了PM2.5、O3与氮氧化物和挥发性有机化合物排放量减少之间复杂的相互作用。值得注意的是，氮氧化物的减少在夏季表现出最大的降低CAQI的潜力，但在冬季，对PM2.5减少的积极影响可能被更高的O3水平所抵消。尽管如此，深度削减氮氧化物排放仍然是控制长三角PM2.5和O3污染的最有效策略。这些发现提供了重要的数值见解，并为政策制定者制定有针对性的空气质量管理战略奠定了坚实的基础。

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Deeper NOx emission reductions toward better air quality in the Yangtze River Delta: Numerical evidences from NOx and VOCs emissions control measures

Mitigating air pollution in the Yangtze River Delta (YRD), one of China's most densely populated regions, is critical for reducing pollution-related health impacts. This study uses the WRF-Chem model to simulate the concentrations of two key pollutants, PM_2.5 and O₃, and to assess their responses to various emission control measures. Our objective is to provide actionable insights for designing effective clean air policies to improve future air quality in the YRD. The sensitivity analysis using the Comprehensive Air Quality Index (CAQI) underscores the complex interactions between PM_2.5, O₃, and reductions in NOx and VOC emissions. Notably, NOx reductions exhibit the greatest potential for lowering CAQI in summer, but in winter, the positive effects on PM_2.5 reduction may be offset by higher O₃ levels. Despite this trade-off, deep NOx emission cuts remain the most effective strategy for controlling both PM_2.5 and O₃ pollution in the YRD. These findings provide critical numerical insights and serve as a strong foundation for policymakers to develop targeted air quality management strategies.

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来源期刊

Atmospheric Research 地学-气象与大气科学

CiteScore

9.40

自引率

10.90%

发文量

460

审稿时长

47 days

期刊介绍： The journal publishes scientific papers (research papers, review articles, letters and notes) dealing with the part of the atmosphere where meteorological events occur. Attention is given to all processes extending from the earth surface to the tropopause, but special emphasis continues to be devoted to the physics of clouds, mesoscale meteorology and air pollution, i.e. atmospheric aerosols; microphysical processes; cloud dynamics and thermodynamics; numerical simulation, climatology, climate change and weather modification.