Haeju Lee, Dongwan Kim, Minseung Yeo, Yusin Kim, Chang Hoon Jung, Seogju Cho, Ji Hoon Park, Hye Jung Shin, Sung Hoon Park
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引用次数: 0
摘要
观测约束大气 BOX 模型(OCABOX)用于分析韩国首尔首都圈(SMA)二次无机可吸入颗粒物的形成。利用韩美空气质量实地考察活动期间在奥林匹克公园地面站点(37.53°N,127.12°E)对 PM2.5 的离子成分及其气态前体的测量数据,以基于观测的模式运行 OCABOX 并比较模拟结果。使用在海洋背景站点测量到的 HNO3 浓度作为边界条件,似乎提高了模型预测 HNO3 和微粒 NO3- 浓度的准确性。对于在整个 SMA 中大量排放的主要前体(如 NOx 和 NH3),使用在 SMA 内测得的数据作为边界条件可能会导致更准确的预测。如果使用适当的区域本底浓度和基于观测的约束条件,OCABOX 被证明是分析 SMA 中二次无机气溶胶形成的可靠工具。
A Box-Model Simulation of the Formation of Inorganic Ionic Particulate Species and Their Air Quality Implications in Republic of Korea
The Observation-Constrained Atmospheric BOX model (OCABOX) was used to analyze the formation of secondary inorganic PM species in the Seoul Metropolitan Area (SMA), South Korea. The measurement data of the ionic components of PM2.5 and their gaseous precursors made at the Olympic Park ground site (37.53°N, 127.12°E) during the Korea-United States Air Quality field campaign were used to run OCABOX in observation-based mode and compare the simulation results. The use of the HNO3 concentrations measured at a marine background site as the boundary conditions appeared to increase the accuracy of the model prediction of HNO3 and particulate NO3− concentrations. For the primary precursors emitted considerably throughout the SMA, such as NOx and NH3, using the data measured inside the SMA as the boundary conditions could lead to more accurate predictions. OCABOX was shown to be a reliable tool to analyze the formation of secondary inorganic aerosol in the SMA if used with appropriate regional background concentrations and observation-based constraints
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