Your search keyword '"D. Rosenfeld"' showing total 1 results

1. City-level air quality improvement in the Beijing-Tianjin-Hebei region from 2016/17 to 2017/18 heating seasons: Attributions and process analysis.

Author

Zhang Y, Chen X, Yu S, Wang L, Li Z, Li M, Liu W, Li P, Rosenfeld D, and Seinfeld JH

Subjects

Beijing, China, Cities, Environmental Monitoring, Heating, Particulate Matter analysis, Quality Improvement, Seasons, Air Pollutants analysis, Air Pollution analysis

Abstract

With the implementation of clean air strategies, PM 2.5 pollution abatement has been observed in the "2 + 26" cities in the Beijing-Tianjin-Hebei (BTH) region (referred to as the BTH2+26) and their surrounding areas. To identify the drivers for PM 2.5 concentration decreases in the BTH2+26 cites from the 2016/17 heating season (HS1617) to the 2017/18 heating season (HS1718), we investigated the contributions of meteorological conditions and emission-reduction measures by Community Multi-Scale Air Quality (CMAQ) model simulations. The source apportionments of five sector sources (i.e., agriculture, industry, power plants, traffic and residential), and regional sources (i.e., local, within-BTH: other cities within the BTH2+26 cities, outside-BTH, and boundary conditions (BCON)) to the PM 2.5 decreases in the BTH2+26 cities were estimated with the Integrated Source Apportionment Method (ISAM). Mean PM 2.5 concentrations in the BTH2+26 cities substantially decreased from 77.4 to 152.5 μg m -3 in HS1617 to 52.9-101.9 μg m -3 in HS1718, with the numbers of heavy haze (daily PM 2.5 ≥150 μg m -3 ) days decreasing from 17-77 to 5-30 days. The model simulation results indicated that the PM 2.5 concentration decreases in most of the BTH2+26 cities were attributed to emission reductions (0.4-55.0 μg m -3 , 2.3-81.6% of total), but the favorable meteorological conditions also played important roles (1.9-25.4 μg m -3 , 18.4-97.7%). Residential sources dominated the PM 2.5 reductions, leading to decreases in average PM 2.5 concentrations by more than 30 μg m -3 in severely polluted cities (i.e., Shijiazhuang, Baoding, Xingtai, and Beijing). Regional source analyses showed that both local and within-BTH sources were significant contributors to PM 2.5 concentrations for most cities. Emission controls in local and within-BTH sources in HS1718 decreased the average PM 2.5 concentrations by 0.1-47.2 μg m -3 and 0.3-22.1 μg m -3 , respectively, relative to those in HS1617. Here we demonstrate that a combination of favorable meteorological conditions and anthropogenic emission reductions contributed to the improvement of air quality from HS1617 to HS1718 in the BTH2+26 cities., Competing Interests: Declaration of competing interest Authors declare no conflict of interests., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021