Evaluation of Aircraft Emissions at Bucharest Henri Coanda Airport

IF 1.5 0 ENGINEERING, MULTIDISCIPLINARY Engineering, Technology & Applied Science Research Pub Date : 2023-10-13 DOI:10.48084/etasr.6242
Radu Mirea, Grigore Cican, Mihaiella Cretu
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Abstract

This study presents the influence of aircraft movements on air quality by highlighting the contribution of landings and/or takeoffs at Henri Coanda Airport, Bucharest. An experimental campaign was carried out using a mobile laboratory equipped with reference instruments for the main air pollutants (NO-, NO2, NOx, SO2, CO, and O3) and a meteorological station to measure wind speed and direction, air temperature, pressure, and relative humidity at a height of 10 m above the ground. The mobile testing laboratory was located inside the airport near the passenger embarking area, and measurements were carried out for 7 days. Air sampling was carried out at a height of 3.5 m above the ground. Pollutant levels were continuously measured throughout the measurement period, with high-precision equipment and a 10-second interval. The results obtained showed an increase in pollutant concentrations during takeoffs and/or landings, providing an initial assessment of gaseous pollutant levels and hourly distribution. Airport authorities can use this assessment to balance aircraft and passenger movements to minimize human exposure to gaseous pollutants. Furthermore, this study used the Pearson correlation between each pollutant and meteorological parameters to establish the best conditions for passengers to be present on the airport premises. The results showed that wind speed and direction directly influence the distribution of gaseous pollutants, especially during landings and takeoffs.
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布加勒斯特亨利·康达机场飞机排放评估
本研究通过强调布加勒斯特亨利·科安达机场的降落和/或起飞,介绍了飞机运动对空气质量的影响。利用配备主要大气污染物(NO-、NO2、NOx、SO2、CO、O3)参考仪器的移动实验室和气象站,在距地面10 m高度测量风速、风向、气温、气压和相对湿度。移动检测实验室位于机场内靠近旅客登机区,进行了为期7天的测量。空气采样在离地面3.5 m的高度进行。在整个测量期间,采用高精度设备和10秒间隔连续测量污染物水平。获得的结果显示,在起飞和/或降落期间污染物浓度增加,提供了气体污染物水平和小时分布的初步评估。机场当局可以利用这一评估来平衡飞机和乘客的移动,以尽量减少人类接触气态污染物。此外,本研究使用每种污染物与气象参数之间的Pearson相关性来确定旅客在机场场所存在的最佳条件。结果表明,风速和风向直接影响气体污染物的分布,特别是在着陆和起飞时。
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来源期刊
Engineering, Technology & Applied Science Research
Engineering, Technology & Applied Science Research ENGINEERING, MULTIDISCIPLINARY-
CiteScore
3.00
自引率
46.70%
发文量
222
审稿时长
11 weeks
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