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国家自然科学基金(41275167)

作品数:3 被引量:9H指数:2
相关作者:王亚强王继志张光智杨元琴杨筠更多>>
相关机构:中国气象科学研究院泰安市气象局更多>>
发文基金:国家自然科学基金国家重点基础研究发展计划更多>>
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PLAM指数跟踪方法对中国沙尘天气过程及其波动变化特征的研究被引量:6
2013年
采用1980—2011年气象台站地面气象要素观测资料、高空探空资料,时间和空间加密气象观测站资料,以及中国气象档案馆原始天气图表等资料,基于沙尘气溶胶浓度(PM10)潜势源地贡献函数PSCF(Potential Source Contribution Function)的沙尘系统追踪方法,发展空气质量气象条件指数PLAM(Parameters Linking Air-quality and Meteorology)对沙尘天气过程的路径跟踪,给出1980—2011年东北亚沙尘天气过程特征分布;采用Spline趋势分析,讨论沙尘天气系统强度的年度变化特征。结果表明:基于气溶胶浓度PSCF函数和气象条件指数PLAM追踪得出,中国和东亚地区沙尘天气过程年际强度变化并非单调减弱,其具有历史持续性与转折突变性并存的波状变化趋势,出现准10 a的高低频活动特征。
王继志杨元琴王亚强张光智
关键词:沙尘暴
泰山PM10及其中化学成分变化特征
2014年
为研究华北平原区域背景气溶胶成分及其变化特征,2010年6月至2011年7月在泰山顶采集了64个PM10滤膜样品,分析了样品的PM10及其中无机盐离子和有机碳(OC)、元素碳(EC)的质量浓度,并对各成分相关性等进行了分析。泰山PM10年均质量浓度约为68.4μg/m^3,其中无机盐离子约占总质量的64.8%,碳气溶胶约占17.4%。无机盐离子的质量浓度从春季逐渐增大,夏季达到峰值,秋季下降,冬季最小;OC质量浓度从春季至秋季逐渐增高,冬季最低,EC变化类似,但夏秋两季差别不大。二次有机碳(SOC)与OC.的比值四季均在50%以上,年均值约为58.5%。通过后向轨迹聚类分析发现,在经过城市的较短轨迹以及南方较短混合轨迹的影响下,泰山PM10质量浓度较高,而西北长距离传输气团PM10浓度均较低。
车浩驰王亚强杨筠沈小静张璐王德众
关键词:PM10有机碳元素碳
Temporal Variation and Source Identification of Black Carbon at Lin'an and Longfengshan Regional Background Stations in China被引量:3
2017年
Black carbon (BC) is a component of fine particulate matter (PM2.5), associated with climate, weather, air quality, and people's health. However, studies on temporal variation of atmospheric BC concentration at background stations in China and its source area identification are lacking. In this paper, we use 2-yr BC observations from two background stations, Lin'an (LAN) and Longfengshan (LFS), to perform the investigation. The results show that the mean diurnal variation of BC has two significant peaks at LAN while different characteristics are found in the BC vari- ation at LFS, which are probably caused by the difference in emission source contributions. Seasonal variation of monthly BC shows double peaks at LAN but a single peak at LFS. The annual mean concentrations of BC at LAN and LFS decrease by 1.63 and 0.26 μg m 3 from 2009 to 2010, respectively. The annual background concentration of BC at LAN is twice higher than that at LFS. The major source of the LAN BC is industrial emission while the source of the LFS BC is residential emission. Based on transport climatology on a 7-day timescale, LAN and LFS stations are sensitive to surface emissions respectively in belt or approximately circular area, which are dominated by summer monsoon or colder land air flows in Northwest China. In addition, we statistically analyze the BC source regions by using BC observation and FLEXible PARTicle dispersion model (FLEXPART) simulation. In summer, the source regions of BC are distributed in the northwest and south of LAN and the southwest of LFS. Low BC concentration is closely related to air mass from the sea. In winter, the source regions of BC are concentrated in the west and south of LAN and the northeast of the threshold area of stot at LFS. The cold air mass in the northwest plays an important role in the purification of atmospheric BC. On a yearly scale, sources of BC are approximately from five provinces in the northwest/southeast of LAN and the west of LFS. These findings are helpful in
Siyang CHENGYaqiang WANGXingqin AN
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