Atmosphere (Nov 2021)

Grey Correlation Analysis of Haze Impact Factor PM2.5

  • Jiayi Xu,
  • Zhixin Liu,
  • Lirong Yin,
  • Yan Liu,
  • Jiawei Tian,
  • Yang Gu,
  • Wenfeng Zheng,
  • Bo Yang,
  • Shan Liu

DOI
https://doi.org/10.3390/atmos12111513
Journal volume & issue
Vol. 12, no. 11
p. 1513

Abstract

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In recent years, frequent severe haze weather has formed in China, including some of the most populated areas. We found that these smog-prone areas are often relatively a “local climate” and aim to explore this series of scientific problems. This paper uses remote sensing and data mining methods to study the correlation between haze weather and local climate. First, we select Beijing, China and its surrounding areas (East longitude 115°20′11″–117°40′35″, North latitude 39°21′11″–41°7′51″) as the study area. We collected data from meteorological stations in Beijing and Xianghe from March 2014 to February 2015, and analyzed the meteorological parameters through correlation analysis and a grey correlation model. We study the correlation between the six influencing factors of temperature, dew point, humidity, wind speed, air pressure and visibility and PM2.5, so as to analyze the correlation between haze weather and local climate more comprehensively. The results show that the influence of each index on PM2.5 in descending order is air pressure, wind speed, humidity, dew point, temperature and visibility. The qualitative analysis results confirm each other. Among them, air pressure (correlation 0.771) has the greatest impact on haze weather, and visibility (correlation 0.511) is the weakest.

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