Characteristics of Fine Particulate Matter (PM2.5) Chemical Composition in the North Jakarta Industrial Area

Q3 Environmental Science Environment and Natural Resources Journal Pub Date : 2024-05-01 DOI:10.32526/ennrj/22/20230300
Zeni Anggraini, Muhayatun Santoso, A. Sofyan
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Abstract

Air pollution around industrial area has become a serious concern for both the public and local government. Thus, research on PM2.5 characterization is urgently needed. This study identifies the concentration and chemical characteristics of PM2.5 to provide an in-depth understanding of the composition of these particles around the largest industrial complex in North Jakarta. Sixty samples of PM2.5 were collected from residential sites around industrial areas in North Jakarta. Samples were collected on Teflon filters using a SuperSASS instrument during the period from February to July 2023, representing the wet and dry seasons. Mass concentrations of PM2.5, black carbon, and 19 chemical elements were determined. The average mass concentration of PM2.5 in the wet and dry seasons was 27.81±11.82 µg/m3 and 46.63±14.37 µg/m3, respectively. Although the concentration of PM2.5 was lower during the wet season, the concentrations of black carbon and certain elements did not decrease significantly. This shows that pollutants play an important role in both seasons in the study location. Sulfur is the most abundant element with the average concentration in the dry season (2,727.89 ng/m3) higher than in the wet season (1,983.18 ng/m3). The PM2.5 mass reconstruction results show that ammonium sulfate and black carbon have the largest portion of PM2.5 mass. The results are expected to be used as a scientific reference in studying air pollution problems in this region and assist in formulating air protection policies to reduce PM2.5 emissions.
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北雅加达工业区细颗粒物 (PM2.5) 化学成分的特征
工业区周围的空气污染已成为公众和地方政府严重关切的问题。因此,迫切需要对 PM2.5 的特征进行研究。本研究确定了 PM2.5 的浓度和化学特征,以便深入了解雅加达北部最大工业区周围这些颗粒物的组成。研究人员从北雅加达工业区周围的居民点收集了 60 份 PM2.5 样本。在 2023 年 2 月至 7 月期间,即雨季和旱季,使用 SuperSASS 仪器在特氟龙过滤器上采集了样本。测定了 PM2.5、黑碳和 19 种化学元素的质量浓度。雨季和旱季 PM2.5 的平均质量浓度分别为 27.81±11.82 µg/m3 和 46.63±14.37 µg/m3。虽然雨季的 PM2.5 浓度较低,但黑碳和某些元素的浓度并没有明显下降。这表明污染物在研究地点的两个季节都发挥着重要作用。硫是含量最高的元素,旱季的平均浓度(2,727.89 纳克/立方米)高于雨季(1,983.18 纳克/立方米)。PM2.5 质量重构结果显示,硫酸铵和黑碳在 PM2.5 质量中所占比例最大。该结果可作为研究该地区空气污染问题的科学参考,并有助于制定减少 PM2.5 排放的空气保护政策。
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来源期刊
Environment and Natural Resources Journal
Environment and Natural Resources Journal Environmental Science-Environmental Science (all)
CiteScore
1.90
自引率
0.00%
发文量
49
审稿时长
8 weeks
期刊介绍: The Environment and Natural Resources Journal is a peer-reviewed journal, which provides insight scientific knowledge into the diverse dimensions of integrated environmental and natural resource management. The journal aims to provide a platform for exchange and distribution of the knowledge and cutting-edge research in the fields of environmental science and natural resource management to academicians, scientists and researchers. The journal accepts a varied array of manuscripts on all aspects of environmental science and natural resource management. The journal scope covers the integration of multidisciplinary sciences for prevention, control, treatment, environmental clean-up and restoration. The study of the existing or emerging problems of environment and natural resources in the region of Southeast Asia and the creation of novel knowledge and/or recommendations of mitigation measures for sustainable development policies are emphasized. The subject areas are diverse, but specific topics of interest include: -Biodiversity -Climate change -Detection and monitoring of polluted sources e.g., industry, mining -Disaster e.g., forest fire, flooding, earthquake, tsunami, or tidal wave -Ecological/Environmental modelling -Emerging contaminants/hazardous wastes investigation and remediation -Environmental dynamics e.g., coastal erosion, sea level rise -Environmental assessment tools, policy and management e.g., GIS, remote sensing, Environmental -Management System (EMS) -Environmental pollution and other novel solutions to pollution -Remediation technology of contaminated environments -Transboundary pollution -Waste and wastewater treatments and disposal technology
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