Observation Study on the Size Distribution of Sand Dust Aerosol Particles over Yinchuan, China

Mao, Jiandong; Sheng, Hongjiang; Zhao, Huijing; Zhou, Chunyan

doi:10.1155/2014/157645

Cited by 12 publications

(4 citation statements)

References 8 publications

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“…4a), are selected to examine the relationship between the local ASI TS and PM 2.5 concentrations. All those cities have been suffering heavy aerosol pollution reported by previous studies (Huang et al 2011;Sun et al 2013;Han et al 2014;Mao et al 2014;Wang et al 2014;Gui et al 2016;J. Li et al 2017;.…”

Section: B the Daily Variations Of Asi Ts In Ncmentioning

confidence: 83%

An Air Stagnation Index to Qualify Extreme Haze Events in Northern China

et al. 2018

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Stagnation weather affects atmospheric diffusion ability, and hence causes the occurrence of haze events, which have been happening frequently in northern China (NC). This work puts forward an air stagnation index (ASITS) to characterize the stagnation weather in NC, in which the processes of ventilation, vertical diffusion, and wet deposition potency are concerned. ASITS can be applied to analyze air stagnation conditions with daily to monthly time scale. It is shown that the ASITS and particulate matter smaller than 2.5 μm in diameter (PM2.5) concentrations own similar lognormal probability distribution functions on both daily and monthly time scales. And the correlation analyses between the ASITS and PM2.5 concentrations indicate that the ASITS can reflect the monthly and daily variations in PM2.5 concentrations in NC. In addition, ASITS could be used as a leading predictor of haze events since correlation coefficients of ASITS leading PM2.5 concentrations by 1 day were significant and were larger than simultaneous correlation coefficients in almost all areas in NC. The robust relationship between ASITS and PM2.5 concentrations exists possibly because the index can reflect the activities of synoptic systems. ASITS could be a useful statistical indicator for variations in PM2.5 concentrations and haze events, and a good tool in analyzing the relationship between climate change and long-term variations in haze in NC.

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Section: B the Daily Variations Of Asi Ts In Ncmentioning

confidence: 83%

An Air Stagnation Index to Qualify Extreme Haze Events in Northern China

et al. 2018

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“…Helan. The geographic details of Yinchuan and the surrounding regions were introduced and can be seen in Mao et al (2014). A sun photometer CE-318 was installed on teaching building No.…”

Section: The Experiments and Results Analysismentioning

confidence: 99%

Dust Particle Size Distribution Inversion Based on the Multi Population Genetic Algorithm

Mao¹,

Li²

2014

Terr. Atmos. Ocean. Sci.

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The aerosol number size distribution is the main parameter for characterizing aerosol optical properties and physical properties, it has a major influence on radiation forcing. With regard to some disadvantages in the traditional methods, a method based on the multi population genetic algorithm (MPGA) is proposed and employed to retrieve the aerosol size distribution of dust particles. The MPGA principles and design are presented in detail. The MPGA has better performance compared with conventional methods. In order to verify the feasibility of the inversion method, the measured aerosol optical thickness (AOT) data of dust particles taken by a sun photometer are used and a series of comparisons between the simple genetic algorithm (SGA) and MPGA are carried out. The results show that the MPGA presents better properties when compared with the SGA with smaller inversion errors, smaller population size and fewer generation numbers to retrieve the aerosol size distribution. The MPGA inversion method is analyzed using the background day, dust storm event and seasonal size distribution. The method proposed in this study has important applications and reference value for aerosol particle size distribution inversion. Atmos. Ocean. Sci., 25,[791][792][793][794][795][796][797][798][799][800]

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“…In addition, the particle volume size distributions have a peak in~4.7 mm during dust events around the cities around the desert regions in western and central Inner Mongolia (Zhuang et al, 2001;Park and Kim, 2006;Zhou et al, 2005;Liu et al, 2005), while Guo et al (2012) found 20% of the largest particle size distribution function located in 1.2e2.2 mm for PM 10 in Hotan around Taklimakan Desert. Mao et al (2014) indicated particle size distribution in spring was obviously larger than that in other seasons due to frequent occurrence of dust events and particle number size distributions had two obvious peaks at the particle radius of 0.6 mm and 1.4 mm during dust events over Yinchuan around Gobi desert. Yabuki et al (2005) found dust storms or blowing dust occurred not only in spring, but also in summer and autumn, though floating dust occurred mainly in March and April at Aksu around Taklimakan desert.…”

Section: Effects Of Dust On Downstream Urban Air Qualitymentioning

confidence: 95%