[Analysis of Causes and Sources of Summer Ozone Pollution in Rizhao Based on CMAQ and HYSPLIT Models]

Xin Lin; Ji-Long Tong; Yi-Fan Wang; Yu-Xiang Chen; Yong-le Liu; Xin Zhang; Cong-Jie Ao; Hao-Tian Liu

doi:10.13227/j.hjkx.202207223

[Analysis of Causes and Sources of Summer Ozone Pollution in Rizhao Based on CMAQ and HYSPLIT Models]

Huan Jing Ke Xue. 2023 Jun 8;44(6):3098-3107. doi: 10.13227/j.hjkx.202207223.

[Article in Chinese]

Authors

Xin Lin¹, Ji-Long Tong¹, Yi-Fan Wang¹, Yu-Xiang Chen¹, Yong-le Liu¹, Xin Zhang¹, Cong-Jie Ao¹, Hao-Tian Liu¹

Affiliation

¹ College of Atmospheric Sciences, Lanzhou University, Lanzhou 730000, China.

PMID: 37309929
DOI: 10.13227/j.hjkx.202207223

Abstract

As a typical coastal city, O₃ pollution in Rizhao has become increasingly serious in recent years. In order to explore the causes and sources of O₃ pollution, IPR process analysis and ISAM source tracking tools based on the CMAQ model were used, respectively, to quantify the contributions of different physicochemical processes and different source tracking areas to O₃ in Rizhao. Additionally, by comparing the differences between O₃-exceeding days and non-exceeding days, combined with the HYSPLIT model, the regional transportation path of O₃ in Rizhao was explored. The results showed that the concentrations of O₃, NO_x, and VOCs near the coastal areas of Rizhao and Lianyungang were significantly increased on O₃ exceedance days compared with those on non-exceedance days. This was mainly because Rizhao was the convergence zone of western, southwestern, and eastern winds on exceedance days, which facilitated the transport and accumulation of pollutants. Process analysis showed that the transport process (TRAN) contribution to the near-surface O₃ near the coastal areas of Rizhao and Lianyungang increased significantly on the exceedance days, whereas the contribution to most areas to the west of Linyi decreased. Photochemical reaction (CHEM) had a positive contribution to the O₃ concentration in Rizhao during the daytime at all heights, and TRAN had a positive contribution at 0-60 m above the ground, and mainly had a negative contribution above 60 m. The contributions of CHEM and TRAN at 0-60 m above the ground would increase significantly on exceedance days, which was approximately twice that on the non-exceedance days. Source analysis showed that the local sources in Rizhao were the main contribution sources of NO_x and VOCs, with the contribution rates of 47.5% and 58.0%, respectively. O₃ mainly came from the contribution outside the simulation area (67.5%). The O₃ and precursor contributions of the western cities of Rizhao (Weifang, Linyi, etc.) and the southern cities (Lianyungang, etc.) would increase significantly on the days of exceeding the standard. The transportation path analysis showed that the number of exceedances accounted for the largest proportion (11.8%) in the path from the west of Rizhao, which was the main transportation channel of O₃ and precursors in Rizhao. This was verified through process analysis and source tracking results, and such trajectories accounted for 13.0% of the total number of trajectories, and their main routes were in the Shaanxi, Shanxi, Hebei, and Shandong regions.

Keywords: CMAQ model; HYSPLIT model; ISAM tool; Rizhao; ozone(O3); process analysis; source analysis.

Publication types

English Abstract