Analysis of PM2.5, black carbon, and trace metals measurements from the Kansas City Transportation and Local-Scale Air Quality Study (KC-TRAQS).

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-01 Epub Date: 2024-07-23 DOI:10.1080/10962247.2024.2365708
Rachelle M Duvall, Evelyn S Kimbrough, Stephen Krabbe, Parikshit Deshmukh, Richard W Baldauf, Lydia H Brouwer, Timothy McArthur, Carry Croghan, Joshua Varga, Matthew Brown, Michael Davis
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Abstract

Communities near transportation sources can be impacted by higher concentrations of particulate matter (PM) and other air pollutants. Few studies have reported on air quality in complex urban environments with multiple transportation sources. To better understand these environments, the Kansas City Transportation and Local-Scale Air Quality Study (KC-TRAQS) was conducted in three neighborhoods in Southeast Kansas City, Kansas. This area has several emissions sources including transportation (railyards, vehicles, diesel trucks), light industry, commercial facilities, and residential areas. Stationary samples were collected for 1-year (October 24, 2017, to October 31, 2018) at six sites using traditional sampling methods and lower-cost air sensor packages. This work examines PM less than 2.5 μm in diameter (PM2.5), black carbon (BC), and trace metals data collected during KC-TRAQS. PM2.5 filter samples showed the highest 24-h mean concentrations (9.34 μg/m3) at the sites located within 20-50 m of the railyard. Mean 24-h PM2.5 concentrations, ranging from 7.96 to 9.34 μg/m3, at all sites were lower than that of the nearby regulatory site (9.83 μg/m3). Daily maximum PM2.5 concentrations were higher at the KC-TRAQS sites (ranging from 25.31 to 43.76 μg/m3) compared to the regulatory site (20.50 μg/m3), suggesting short-duration impacts of localized emissions sources. Across the KC-TRAQS sites, 24-h averaged PM2.5 concentrations from the sensor package (P-POD) ranged from 3.24 to 5.69 µg/m3 showing that, out-of-the-box, the PM sensor underestimated the reference concentrations. KC-TRAQS was supplemented by elemental and organic carbon (EC/OC) and trace metal analysis of filter samples. The EC/OC data suggested the presence of secondary organic aerosol formation, with the highest mean concentrations observed at the site within 20 m of the railyard. Trace metals data showed daily, monthly, and seasonal variations for iron, copper, zinc, chromium, and nickel, with elevated concentrations occurring during the summer at most of the sites.Implications: This work reports on findings from a year-long air quality study in Southeast Kansas City, Kansas to understand micro-scale air quality in neighborhoods impacted by multiple emissions sources such as transportation sources (including a large railyard operation), light industry, commercial facilities, and residential areas. While dozens of studies have reported on air quality near roadways, this work will provide more information on PM2.5, black carbon, and trace metals concentrations near other transportation sources in particular railyards. This work can also inform additional field studies near railyards.

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堪萨斯城交通和地方尺度空气质量研究(KC-TRAQS)的 PM2.5、黑碳和痕量金属测量数据分析。
交通污染源附近的社区会受到更高浓度的颗粒物(PM)和其他空气污染物的影响。很少有研究报告涉及具有多个交通源的复杂城市环境中的空气质量。为了更好地了解这些环境,我们在堪萨斯州堪萨斯城东南部的三个社区开展了堪萨斯城交通和地方空气质量研究(KC-TRAQS)。该地区有多个排放源,包括运输(货场、车辆、柴油卡车)、轻工业、商业设施和住宅区。采用传统采样方法和成本较低的空气传感器套件,在六个地点收集了为期一年(2017 年 10 月 24 日至 312018 年 10 月)的固定样本。这项工作研究了 KC-TRAQS 期间收集的直径小于 2.5 μm 的 PM2.5、黑碳 (BC) 和痕量金属数据。PM2.5过滤样本显示,在距离油轨20-50米范围内的地点,24小时平均浓度最高(9.34微克/立方米)。所有地点的 24 小时 PM2.5 平均浓度在 7.96 至 9.34 μg/m3 之间,均低于附近监管地点的浓度(9.83μμg/m3)。与监管地点(20.50 μg/m3)相比,KC-TRAQS 地点的 PM2.5 每日最大浓度更高(从 25.31 到 43.76 μg/m3 不等),这表明局部排放源会产生短时影响。在整个 KC-TRAQS 站点,来自传感器包(p-POD)的 24 小时 PM2.5 平均浓度介于 3.24 至 5.69 μg/m3 之间,表明 PM 传感器在开箱即用时低估了参考浓度。除了 KC-TRAQS 之外,还对过滤样本进行了元素和有机碳 (EC/OC) 以及痕量金属分析。EC/OC 数据表明存在二次有机气溶胶的形成,在距离油轨 20 米以内的地点观测到的平均浓度最高。痕量金属数据显示铁、铜、锌、铬和镍的日变化、月变化和季节变化,大多数地点在夏季出现浓度升高。影响声明 本研究报告了在堪萨斯州堪萨斯城东南部进行的一项为期一年的空气质量研究的结果,该研究旨在了解受多种排放源影响的社区的微尺度空气质量,这些排放源包括运输源(包括大型油库作业)、轻工业、商业设施和住宅区。使用传统采样器和成本较低的空气传感器收集了固定地点的测量数据。这项工作对之前发表的概述 KC-TRAQS 的工作(《化学传感器》,2019 年 7 月 26 日,doi:10.3390/chemosensors7020026)进行了扩展,并提供了更多细节,特别是对研究区域收集的过滤样本进行 PM2.5、EC/OC 和痕量金属分析。虽然已有数十项关于公路附近空气质量的研究报告,但这项工作将提供更多关于其他交通来源(尤其是油库)附近空气质量的信息。这项工作还可以为更多的油库附近实地研究提供信息,并促进对空气传感器等新技术的使用和评估,以收集交通源附近的数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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