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鄭州国家伝統的少数民族競技大会におけるPM濃度の低減効果の評価
[Evaluation of the Reduction in PM Concentration During the National Traditional Games of Ethnic Minorities in Zhengzhou].
PMID: 32608872 DOI: 10.13227/j.hjkx.201911045.
抄録
鄭州で開催された国家伝統的少数民族大会期間中の排出削減措置の実施と大気の質の改善効果を評価するため、一連のオンライン機器を使用して、2019年8月5日から9月30日までの間、大気汚染物質とPMの成分を継続的に観測した。排出削減前(8月5日~24日)、排出削減中(8月25日~9月18日)、排出削減後(9月19日~30日)の3つのケースを、制御対策の実施状況によって分類した。その結果、排出削減前のPM濃度に比べ、排出削減後のPM濃度の増加幅は、排出削減中のPM濃度(2.3μg-m)よりも排出削減前のPM濃度(11.7μg-m)の方が大きくなっていることが分かりました。このことから、本対策が粒子状物質の削減に大きな効果を発揮していることがわかります。PMの主な成分は、有機物、硝酸塩、アンモニウム、硫酸塩、地殻成分であった。対策前と対策期間中のPMに含まれる成分の割合を比較すると、有機物が3.9%、硝酸塩が0.9%増加したのに対し、硫酸塩、アンモニウム、硫酸塩、地殻成分はそれぞれ1.1%、1.9%、2.2%減少した。正の行列因数分解による発生源指定の結果、二次硫酸塩、二次硝酸塩、二次有機エアロゾル、自動車排出物、産業排出物、粉塵、石炭燃焼がPMの主な発生源となっていることが明らかになった。排出削減対策により、煤塵、石炭燃焼、産業廃棄物などの一次発生源の寄与はそれぞれ8.3%、8.2%、8.1%減少した。一方、二次有機エアロゾルと硝酸塩エアロゾルの寄与は制御期間中に増加しており、鄭州で実施された制御措置は、窒素酸化物と揮発性有機化合物の排出削減効果が一次PM源よりも弱いことが示唆された。
To evaluate the effect of the implementation of emission reduction measures and the improvement in air quality during the National Traditional Games of Ethnic Minorities in Zhengzhou, a series of online instruments were used to continuously observe air pollutants and components of PM from August 5 to September 30, 2019. Three cases, including before emission reduction (August 5-24), during emission reduction (August 25 to September 18), and after emission reduction (September 19-30), were classified by the implementation of control measures. The results show that the growing concentration of PM after the cancellation of emission abatement measures (11.7 μg·m) was greater than that during the emission reduction (2.3 μg·m) compared to the PM concentration before emission reduction. This thus indicates that the control measures have a significant effect on reducing particulate matter. The main components of PM were organic matter, nitrate, ammonium, sulfate, and crustal elements. Compared to the proportion of components in PM before and during the control periods, organic matter and nitrate increased by 3.9% and 0.9%, respectively, while sulfate, ammonium, and crustal elements decreased by 1.1%, 1.9%, and 2.2%, respectively. The results of source appointment by positive matrix factorization show that secondary sulfate, secondary nitrate, secondary organic aerosols, vehicular emissions, industrial emissions, dust, and coal combustion are the main sources of PM. Emission abatement measures reduced the contributions of primary sources such as dust, coal combustion, and industry by 8.3%, 8.2%, and 8.1%, respectively. In contrast, the contributions of secondary organic and nitrate aerosols increased during the control periods, which suggested that the control measures implemented in Zhengzhou had a weaker emission reduction effect on nitrogen oxide and volatile organic compounds than on primary sources of PM.