scholarly works
Permanent URI for this collectionhttps://repository.ui.edu.ng/handle/123456789/566
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Item Assessment of the impacts of building construction activities on the environment(Department of civil engineering, University of Ibadan, Ibadan, Oyo-state, Nigeria ,department of chemistry, University of Zululand, zululand, kwazulu-Natal, South- Africa. Department of earth sciences, Olabisi Onabaanjo University, Ago-Iwoye, Ogun State, Nigeria. department of applied chemistry, University of Johannesburg, Johannesburg, South Africa. department of civil engineering, Osun State University, Osogbo, Osun state, Nigeria., 2024-04) Akintayo, F. O.; Oyebade, O. N.; Songca, S. P.; Adebisi, N. O.; Oluwafemi, O.S.; Fadipe, O. O.Activities in building construction industry contribute to air pollution. In this study, gas data from four locations at each three building construction sites in Doha, Qatar were collected and analyzed. Questionnaires were also administered to companies that are involved in building construction projects. The results showed traces of SO2, CO2, CO and NO2 but in amounts below the detrimental limit stipulated by the Ministry of Environment, Qatar. Questionnaire responses revealed that the extraction of raw materials and the energy consumed during construction occur quite often, but strongly implicated dust generated from construction sites and waste disposal, as major factors causing air pollution in the area. It is therefore, recommended that regular monitoring of air should be carried out within building construction sites to aid detection of air contamination. This will serve as a control measure to stimulate catalytic conversion of exhaust, reuse and recycling of waste materials.Item Seasonal variations in pm2g air pollutants and impact on preterm birth rate in Kampala: A Retrospective Cohort(Nigerian Society of Engineers Ibadan (Premier) Branch, 2020) Ajaelu, C. S.; William, w.; Akintayo, F.O.; Coker, A. O.There is a growing body of evidence linking air pollution to negative births outcomes, but few studies have explored the relationship of air pollution on negative births outcomes such as preterm birth in Africa. Identifying the association between PM2 5 and preterm births will be a good starting point for intervention and policy changes on air pollution reduction methods. The study aimed to determine the association between seasonal variation in PM25 and preterm births in Kampala Uganda. Retrospective cohort study was carried out by collecting birth outcomes data from District Health Information System 2 (DHIS2) database, with the authority of Kampala Capital City Authority (KCCA). PM2.5 data were collected from US Embassy monitoring station from January 2018 to December 2019. Association between seasonal variation in PM2.5 and preterm births were found using STATA 13.0 version. This study showed a seasonal trend in PM2.5 level which was very high between the range of 56-72 ugym1 in the two dry seasons of the year 2018 and 2019. It was found lower in both wet seasons of the year 2018 and 2019 within the range of 40-52 pg/m3. The regression analysis showed that there is a strong association between each 10 unit increase in PM2.5 and preterm births in second dry season of 2018 and the first dry season of 2019 (p<0.000). The results of this study support with evidence the relationship between PM2.5 air pollutant and preterm births, especially in dry seasons