2022年博尔铜冶炼厂改造期间博尔烧结区空气质量测量

V. Tasić, Tatjana Apostolovski-Trujić, Bojana Radović, R. Kovačević, N. Ristić, Tamara Urošević, Vladan Kamenović
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摘要

本文介绍了2022年6 - 12月博尔铜冶炼厂因改造和增加铜精矿加工能力而停工期间,博尔铜冶炼厂的空气质量监测结果。根据对博尔地区当地和国家空气质量监测网络测量的现有测量点和污染物浓度的分析,以及塞尔维亚紫金铜博尔公司新采矿和冶金设施可能产生的影响,选择了进行测量的其他地点。空气质量监测结果显示,气态污染物的小时限值和日限值均未超过,PM10分部悬浮颗粒中铅的日平均值浓度限值和PM10中镉、镍的浓度目标值均未超过。浦浦测量点PM10中砷浓度连续3天高于年度目标值。该测点PM10中砷的最大日平均值为11.3 ng/m3。基于对2022年Bor集聚区空气质量测量结果的全面了解,可以得出结论,PM10中SO2、CO浓度以及砷、镉和铅浓度的主要来源是Bor铜冶炼厂在其运行期间排放的气态污染物。结果表明,在测点MMI Bor,车辆排放的氮氧化物对空气中氮氧化物水平的影响最大。测量结果表明,2022年铜冶炼厂运行对Bor团聚过程中悬浮PM10颗粒浓度的增加没有显著影响,2022年铜冶炼厂运行期间未加工出镍含量增加的铜精矿。
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Measurement of the air quality in the agglomeration of Bor in 2022 during the copper smelter reconstruction in Bor
This paper presents the results of the air quality measurements in the agglomeration of Bor in the period June-December 2022, in which the Copper Smelter in Bor was not working due to the works on reconstruction and increasing the capacity for copper concentrate processing. Based on an analysis of the existing measuring points and concentrations of pollutants, measured in the local and national air quality monitoring network in the territory of the Bor agglomeration, as well as the possible impact of the new mining and metallurgical facilities in the company Serbia ZiJin Copper Bor, the additional locations, where the measurements were performed, were selected. The air quality measurement results show that there was no exceedance of the hourly and daily limit values for gaseous pollutants, nor were there an exceedance of the limit value for the mean daily concentration of lead in the suspended particles of the PM10 fraction, as well as the target values for the concentrations of cadmium and nickel in PM10. The arsenic concentration in PM10 at the measuring point of PU Bor was above the target annual value for 3 days. The maximum measured mean daily value of arsenic concentration in PM10 at this measuring point was 11.3 ng/m3 . Based on a complete insight into the results of air quality measurements in the Bor agglomeration in 2022, it can be concluded that the dominant share of concentration of SO2 , CO, as well as the concentration of arsenic, cadmium, and lead in PM10, originates from the gaseous pollutant emissions from the Copper Smelter Bor in the period when it operates. It was established that at the measuring point MMI Bor, the nitrogen oxide emissions from traffic mostly affect the level of nitrogen oxides in the air. Also, the measurement results indicate that the operation of the Smelter in 2022 did not significantly contribute to the concentration increase of suspended PM10 particles in the agglomeration of Bor, and that during the period of operation of the Copper Smelter in 2022, no copper concentrates with increased nickel content were processed.
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