Abstract
A chance constrained stochastic Data Envelopment Analysis (DEA) was developed for investigating the relations between PM2.5 pollution days and meteorological factors and human activities, incorporating with an empirical study for 13 cities in Jiangsu Province (China) to illustrate the model. This approach not only admits random input and output environment, but also allows the evaluation unit to exceed the front edge under the given probability constraint. Moreover, observing the change in outcome variables when a group of explanatory variables are deleted provides an additional strategic technique to measure the effect of the remaining explanatory variables. It is found that: (1) For 2013–2016, the influencing factors of PM2.5 pollution days included wind speed, no precipitation day, relative humidity, population density, construction area, transportation, coal consumption and green coverage rate. In 2016, the number of cities whose PM2.5 pollution days was affected by construction was decreased by three from 2015 but increased according to transportation and energy utilization. (2) The PM2.5 pollution days in southern and central Jiangsu Province were primarily affected by the combined effect of the meteorological factors and social progress, while the northern Jiangsu Province was largely impacted by the social progress. In 2013–2016, at different risk levels, 60% inland cities were of valid stochastic efficiency, while 33% coastal cities were of valid stochastic efficiency. (3) The chance constrained stochastic DEA, which incorporates the data distribution characteristics of meteorological factors and human activities, is valuable for exploring the essential features of data in investigating the influencing factors of PM2.5.
Highlights
PM2.5 refers to particles in the atmosphere of less than or equal to 2.5 microns in diameter
This study assumed that the PM2.5 pollution days in a region is related to meteorological conditions, and based on this assumption, we studied the relationship between them
Since the current haze weather has a great impact on people’s lives and physical health, and the haze weather is mainly caused by PM2.5 pollution, this study mainly considered the number of pollution days with PM2.5 as the primary pollutant, instead of the number of pollution days with SO2, NOX, CO, O3, PM10 and other pollution factors as the primary pollutant
Summary
PM2.5 refers to particles in the atmosphere of less than or equal to 2.5 microns in diameter. The Ministry of Ecology and Environment (MEEC) of China releases regularly information regarding heavy air pollution conditions, especially fine particulate matter [1]. According to these reports, heavy pollution weathers have significantly decreased in recent years in terms of the frequency and duration, indicating that the preventive and control strategies boost some substantial progress. Long-term exposure to PM2.5 pollution has a significant impact on the health of human beings, especially infants and juveniles [3]. It is necessary to study the influencing factors of PM2.5 and effectively control PM2.5 pollution
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