尼日利亚卡杜纳州扎里亚大都会选定交通拥挤地区颗粒污染物影响评估

IF 0.1 Q4 ENGINEERING, CIVIL
Tunde Oloriegbe, Odeleye A. Joshua, Adeyi A. Abubakar
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引用次数: 0

摘要

摘要人们注意到,随着交通量的增加,扎里亚大都市主要节点的颗粒污染物浓度持续增长。颗粒物浓度和气象数据是在扎里亚大都市内测量的,仅限于该镇的主要道路,包括Kwangila、PZ、Kasua Mata、Agoro和Kofar Doka。在早高峰时间(上午7:00至上午10:00)的每个采样点,使用粒子计数器测量不同颗粒尺寸(P0.3、P0.5、P1.0、P2.5和P5.0)的颗粒物浓度,持续3小时,下午非高峰时段(上午11点至下午2点)的3小时,以及晚高峰时段(下午4点至7点)的三小时。五个采样点的高峰时段(上午)平均交通量为2701-3060,而晚高峰时段的平均交通量则为2676-3651。非高峰时段(下午)的平均交通量在1777-2255之间,宽吉拉在高峰时段和非高峰时段的交通量最高。交通密度对测量颗粒物浓度的影响表明,交通量的增加导致高峰和非高峰时段记录的颗粒物浓度相应增加。P2.5被用作与高峰和非高峰时段的AQI标准进行比较的基础。在高峰时段,Kwangila、Kasua Mata和Agoro的空气质量被归类为不健康和危险,而PZ和Kofar Doka的空气质量则被归类为对心脏和肺部疾病患者不健康。与AQI标准相比,所有采样点在非高峰时段获得的PM浓度被归类为中等和安全。在这方面,不仅需要促进乘客容量更大的公共交通,还需要改善公共交通系统。这将通过提供一种方便的选择来减少不必要的驾驶,并通过降低每行驶乘客公里的排放量来减少温室气体排放。使用非机动交通工具也将有助于遏制污染物向大气的过度排放。在主要道路上植树以捕获和吸收污染物是减少大气中污染物含量的另一种选择。应劝阻使用老旧车辆。车辆越旧,排放更多污染物的趋势就越大。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact Assessment of Particulate Pollutants in Selected Traffic Congested Areas in Zaria Metropolis, Kaduna State, Nigeria
Abstract It has been noticed that the concentration of particle pollutants in major nodal points in Zaria metropolis has continued to grow as the traffic volume increases. The concentration of particulate matter and meteorological data was measured within the Zaria metropolis and was limited to major ways within the town which include Kwangila, PZ, Kasua Mata, Agoro and Kofar Doka. The concentrations of the Particulate Matter in different particle sizes (P0.3, P0.5.P1.0, P2.5 and P5.0) were measured using particle counter, at each sampling point for 3hrs during the morning peak hours (7:00am to 10.00am), for 3hrs during the afternoon off peak hours (11.00am to 2:00pm) and for 3hrs for the evening peak hours (4:00 to 7:00pm) after a comprehensive traffic volume of vehicles plying the sampling points had been done for one month. The average traffic volume for the peak period (morning) across the five sampling points ranged from 2701-3060 while that of the evening peak hours ranged from 2676-3651. The average traffic volume for the off peak (afternoon) ranged from 1777-2255 with kwangila recording the highest traffic volume for both peak and off peak periods. The impact of traffic density on the concentration of particulate matter measured showed that increase in traffic led to a corresponding increase in the concentration of particulate matter recorded for both peak and off- peak periods. The P2.5 was used as bases for comparison with the AQI standard for peak and off peak periods. For peak hour session, the air quality at Kwangila, Kasua Mata and Agoro was classified as unhealthy and hazardous while that of PZ and Kofar Doka was classified unhealthy to people with heart and lungs diseases. The concentration of PM obtained for off-peak period for all the sampling points was classified moderate and safe when compared with AQI standard. In this regard, there is a need to not only promote public transportation with larger capacity of passengers but to also improve the public transportation system. This will reduce greenhouse gas emissions by providing a convenient option to reduce unnecessary driving and by lowering emissions per passenger kilometer travelled. The use of non-motorized means of transportation would also help in curbing excessive release of pollutants into the atmosphere. Planting of Trees along major ways to trap and absorb pollutants is another option of reducing the amount of pollutants in the atmosphere. The use of older vehicles should be discouraged. The older a vehicle is the more the tendency to emit more pollutants.
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