| 露天生物质燃烧对地面PM2.5浓度的影响评估 |
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| 引用本文: | 柯华兵,龚山陵,何建军,周春红,张磊,周奕珂.露天生物质燃烧对地面PM2.5浓度的影响评估[J].应用气象学报,2020,31(1):105-116. |
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| 作者姓名: | 柯华兵 龚山陵 何建军 周春红 张磊 周奕珂 |
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| 作者单位: | 1.中国气象科学研究院, 北京 100081 |
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| 摘 要: | 利用MODIS火点、土地类型、植被覆盖、生物质载荷和排放因子等数据产品,开发了露天生物质燃烧排放模型,并将其嵌入空气质量模式WRF-CUACE,通过敏感性试验定量评估了露天生物质燃烧对中国地面PM2.5浓度的影响。研究设计了3种模拟方案,比较模式评估结果发现修订后的方案能更好地模拟PM2.5浓度。结果表明:2014年10月露天生物质燃烧主要集中在我国东北、华南和西南地区,其对PM2.5月平均浓度的贡献达30~60 μg·m-3,局地甚至超过100 μg·m-3;华北、华东和华南地区生物质燃烧对PM2.5月平均浓度的贡献达5~20 μg·m-3。从相对贡献看,东北大部分地区生物质燃烧对地面PM2.5浓度的贡献超过50%,华南地区达20%~50%,西南局部地区甚至超过60%;华北、华中以及华东地区相对较低,平均相对贡献达10%~20%。生物质燃烧越严重的地区,其产生的PM2.5中二次气溶胶的贡献占比越小,反之亦然。
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| 关 键 词: | 露天生物质燃烧 排放模型 WRF-CUACE 地面PM2.5浓度 |
| 收稿时间: | 2019-03-05 |
Assessment of Open Biomass Burning Impacts on Surface PM2.5 Concentration |
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| Affiliation: | 1.Chinese Academy of Meteorological Sciences, Beijing 1000812.Nanjing University of Information Science & Technology, Nanjing 210044 |
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| Abstract: | Open biomass burning plays an important role in the formation of heavy pollution events during harvest seasons in China by releasing gases and particulate matters into the atmosphere. A better understanding of open biomass burning in China is required to assess its impacts on the air quality and especially on heavy haze pollution.By using datasets of MODIS fire spot, land cover, vegetation cover, biomass loading and emission factors, a biomass emission model is developed, which is then embedded to an air quality model (WRF-CUACE) to quantitatively assess impacts of biomass burning on surface PM2.5 concentration in China through sensitivity tests. Three simulation scenarios are designed to ensure that simulation results of revised scenarios are closer to actual atmospheric conditions according to the model evaluation. Results show that in October 2014, Northeast, South and Southwest China are regions of the largest contribution to biomass burning with the average monthly increased concentration of PM2.5 up to 30-60 μg·m-3, and even more than 100 μg·m-3 at local regions. In North, East and South China, biomass burning generally provides a contribution of PM2.5 concentration of 5-20 μg·m-3. In terms of the percentage of relative contribution, the value in Northeast China exceeds 50% in most regions. In South China, the relative contribution of biomass burning reaches 20%-50%, and even exceeds 60% in parts of Southwest China. While in North, Central and East China, the relative contribution of biomass burning is generally 10%-20%. In addition, the contribution of secondary aerosols in PM2.5 from biomass burning is also estimated. A group of sensitivity experiments are set up, with and without the gas emission from biomass burning. In Northeast China, the contribution concentration of secondary aerosols is only 0-10 μg·m-3, significantly lower than that in North, Central, East and South China, where the contribution concentration of secondary aerosols could reach 5-15 μg·m-3. In terms of the percentage of contribution to secondary aerosols in PM2.5 from biomass burning, the value in Northeast China is the lowest, which is less than 30% in most regions. And in South and Southwest China, the contribution percentage is relatively larger, which can reach 30%-50%. While in North, Central, East China and vast remote areas, the contribution percentage almost exceed 70%. Based on the above analysis, it is found that the percentage of secondary aerosols in PM2.5 from biomass burning drops when the biomass burning grows. |
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