Bhat Mansoor Ahmad, Eraslan Fatma Nur, Awad Alaa, Malkoç Semra, Üzmez Özlem Özden, Döğeroğlu Tuncay, Gaga Eftade O
Eskişehir Technical University, Faculty of Engineering, Department of Environmental Engineering, 26555, Eskişehir, Turkey.
Eskişehir Technical University, Environmental Research Center (ÇEVMER), 26555, Eskişehir, Turkey.
Build Environ. 2022 Jul 1;219:109176. doi: 10.1016/j.buildenv.2022.109176. Epub 2022 May 18.
The pandemic of COVID-19 currently shadows the world; the whole earth has been on an unprecedented lockdown. Social distancing among people interrupted domestic and international air traffic, suspended industrial productions and economic activities, and had various far-reaching and undetermined implications on air quality. Improvement in air quality has been reported in many cities during the lockdown. On March 22, 2020, the Turkish government enforced strict lockdown measures to reduce coronavirus disease transmission. This lockdown had a significant impact on the movement of people within the country, which resulted in a major drop in worldwide commercial activities. During this period, university campuses were emptied due to the transition to distance education. In this study, various air pollutants sulfur dioxide (SO), nitrogen dioxide (NO), ozone (O), fine particulate matter (PM), total bacteria, and total fungi were measured in different indoor environments at Eskişehir Technical University Campus in Eskişehir, Turkey during COVID-19 lock down period. Also, to calculate the indoor and outdoor ratios (I/O) of the pollutants, simultaneous outdoor measurements were also carried out. The average indoor SO NO O and PM concentrations in different indoor environments ranged between 2.10 and 54.58, 1.36-30.89, 12.01-39.05, and 21-94 μg/m, respectively. The total number of bacteria and fungi ranged between 21.83-514.15 and 13.10-83.36 CFU/m, respectively. Our study intends to give a glimpse to quantify the impact of a pandemic on air quality in different indoor environments in a university campus in Eskişehir, Turkey and calls for follow-up studies. Indoor concentrations were evaluated together with outdoor concentrations. In general, it can be said that the calculated I/O ratios for SO, NO, O, bacteria, and fungi were less than 1 in most indoor environments.
新型冠状病毒肺炎疫情目前笼罩着全球;整个地球都处于前所未有的封锁状态。人与人之间保持社交距离中断了国内外航空交通,暂停了工业生产和经济活动,并对空气质量产生了各种深远且不确定的影响。在封锁期间,许多城市都报告了空气质量有所改善。2020年3月22日,土耳其政府实施了严格的封锁措施以减少新冠病毒疾病传播。此次封锁对该国境内人员流动产生了重大影响,导致全球商业活动大幅下降。在此期间,大学校园因转向远程教育而空无一人。在本研究中,于土耳其埃斯基谢希尔技术大学校园的新冠疫情封锁期间,对不同室内环境中的各种空气污染物二氧化硫(SO)、二氧化氮(NO)、臭氧(O)、细颗粒物(PM)、总细菌和总真菌进行了测量。此外,为计算污染物的室内外比率(I/O),还同时进行了室外测量。不同室内环境中SO、NO、O和PM的平均室内浓度分别在2.10至54.58、1.36 - 30.89、12.01 - 39.05和21 - 94μg/m之间。细菌和真菌总数分别在21.83 - 514.15和13.10 - 83.36 CFU/m之间。我们的研究旨在初步量化疫情对土耳其埃斯基谢希尔一所大学校园不同室内环境空气质量的影响,并呼吁开展后续研究。室内浓度与室外浓度一起进行了评估。总体而言,可以说在大多数室内环境中,计算得出的SO、NO、O、细菌和真菌的I/O比率均小于1。
