Influence of Using Different Chemical Mechanisms on Simulations of Ozone and Its Precursors in the Troposphere of Shanghai, China
ID:254 View Protection:ATTENDEE Updated Time:2022-07-05 10:51:14 Hits:1047 Oral Presentation

Start Time:2022-07-28 11:15(Asia/Shanghai)

Duration:15min

Session:S3 大气物理与大气环境 » S3-2议题3大气物理与大气环境28日上午

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Abstract
The implementation of different chemical mechanisms in air quality models can exert a significant impact on simulations of ozone and its precursors in the troposphere. In the present study, we applied three different chemical mechanisms (RADM2, SAPRC99 and CBMZ) in a three-dimensional mesoscale air quality model, WRF-Chem, to capture the spatiotemporal variations of the surface ozone and its precursors such as NOx and VOCs in Shanghai, China in May 2016, so that the influences on simulations exerted by using different chemical mechanisms can be clarified. Observational data from surface monitoring stations were also adopted for the comparison of the model simulations. By comparing the model predictions with the observational data, we found that  the model with different chemical mechanisms can generally capture the temporal change of ozone in Shanghai during the simulated time period. However, it was found that SAPRC99 predicts a higher ozone than the other two mechanisms during a high-ozone period, while RADM2 gives a higher ozone level in other time periods. Moreover, in simulations using RADM2 and SAPRC99, NO2 is overestimated. In contrast, NO2 predicted by CBMZ is closer to the observational data. A comparison between simulations using different mechanisms also shows that SAPRC99 predicts higher OH, HO2 and NOx than the other two mechanisms. In contrast, RADM2 predicts the highest HNO3 and ozone among these three mechanisms. In addition, we also found that these simulations using different mechanisms all indicate that  Shanghai city is VOC-controlled. However, VOCs and NOx concentrations predicted by CBMZ were found to be mostly lower than those predicted by the other two mechanisms under a same condition.
 
Keywords
Ozone;WRF-Chem;Chemical mechanisms
Speaker
孙璐航
南京信息工程大学

Submission Author
曹乐 南京信息工程大学
孙璐航 南京信息工程大学
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Important Date
  • Conference Date

    Jul 27

    2022

    to

    Jul 28

    2022

  • Jun 30 2022

    Draft paper submission deadline

  • Jul 19 2022

    Registration deadline

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