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UNITED NATIONS ENVIRONMENTAL PROGRAM(UNEP).: Why does air matter?, 2023, https://www.unep.org/explore-topics/air/why-does-air-matter.Search in Google Scholar
EUROPEAN ENVIRONMENT AGENCY(EEA).: How air pollution affects our health.,2023, https://www.eea.europa.eu/en/topics/in-depth/air-pollution/how-it-affects-ourhealth.Search in Google Scholar
SCHWELA, D.: Review of urban air quality in sub-Saharan Africa region: air quality profile of SSA countries. World Bank, 2012.Search in Google Scholar
DEY, S. - MEHTA, N. S.: Automobile pollution control using catalysis. Resources, Environment and Sustainability, 2020, 2:100006.Search in Google Scholar
WANG, T. - XIE, S.: Assessment of traffic-related air pollution in the urban streets before and during the 2008 Beijing Olympic Games traffic control period. Atmospheric Environment, 2009, 43(35):5682-90.Search in Google Scholar
JACOB, D. J.: Heterogeneous chemistry and tropospheric ozone. Atmospheric Environment, 2000,34(12-14):2131-59.Search in Google Scholar
HAO J. - HU, J. - FU, L.: Controlling vehicular emissions in Beijing during the last decade. Transportation Research Part A: Policy and Practice, 2006, 40(8), 639-651.Search in Google Scholar
JANDACKA, D. - DECKY, M. - HODASOVA, K. - PISCA, P. - BRILIAK, D.: Influence of the Urban Intersection Reconstruction on the Reduction of Road Traffic Noise Pollution. Applied Sciences, 2022, 12(17), 8878.Search in Google Scholar
GÜZEl, T. D. - ALP, K.: The effects of technological developments in transportation vehicles on air pollution mitigation of metropolitan cities: A case study of Istanbul. Science of The Total Environment, 2024, 912, 168996.Search in Google Scholar
PÍRY, M. - ŠKORVAGOVÁ, E. - DECKÝ, M.: Green Infrastructure: Legislative and Behavioral Approaches in the Context of Urban Engineering. Civil and Environmental Engineering, 2023, 19(2), 748-757.Search in Google Scholar
MIZDRAK, A. - BLAKELY, T. - CLEGHORN, C. L. - COBIAC, L. J.: Potential of active transport to improve health, reduce healthcare costs, and reduce greenhouse gas emissions: a modelling study. PLoS One, 2019, 14(7), e0219316.Search in Google Scholar
BRUGGE, D. - PATTON, A. P. - BOB, A. - REISNER, E. - LOWE, L. - BRIGHT, O. J. M. - ZAMORE, W.: Developing community-level policy and practice to reduce traffic-related air pollution exposure. Environmental Justice, 2015, 8(3), 95-104.Search in Google Scholar
ASKARIYEH, M. H. - KOTA, S. H. - VALLAMSUNDAR, S. - ZIETSMAN, J. - YING, Q.: AERMOD for near-road pollutant dispersion: Evaluation of model performance with different emission source representations and low wind options. Transportation Research Part D: Transport and Environment, 2017,57:392-402.Search in Google Scholar
ENVIRONMENTAL PROTECTION AGENCY (EPA). (2023). Air Quality Dispersion Modeling Preferred and Recommended Models, URL https://www.epa.gov/scram/air-quality-dispersionmodeling-preferred-and-recommended-models.Search in Google Scholar
MACÊDO, M. F. - RAMOS, A. L.: Vehicle atmospheric pollution evaluation using AERMOD model at avenue in a Brazilian capital city. Air quality, atmosphere & health,2020,13:309-20.Search in Google Scholar
YADAV, P. - GAURAV, R.K. - JAHNAVI, B. - RAM, G. D.: Prediction of PM, SO2 & NOX-GLC’S from point source emissions using air modeling. International Journal of Science Engineering Research, 2013, 4(5):5-9.Search in Google Scholar
ABAYOMI, T.: AERMOD modeling of air pollutant emissions from backup generator use in Lagos, Nigeria (Doctoral dissertation), 2017.Search in Google Scholar
AMOATEY, P. - OMIDVARBORNA, H. - BAAWAIN, M.: The modeling and health risk assessment of PM2. 5 from Tema Oil Refinery. Human and Ecological Risk Assessment: An International Journal, 2018,24(5):1181-96.Search in Google Scholar
CRAIG, K. J. - BARINGER, L. M. - CHANG, S. Y. - MCCARTHY, M. C. - BAI, S. - SEAGRAM, A. F. - RAVI, V. - LANDSBERG, K. - EISINGER, D. S.: Modeled and measured near-road PM2.5 concentrations: Indianapolis and Providence cases. Atmospheric Environment, 2020, 240:117775.Search in Google Scholar
AMOUZOUVI, Y. M. - DZAGLI, M. M. - SAGNA, K. - TÖRÖK, Z. - ROBA, C. A. - MEREUŢĂ, A. -EDJAME, K. S.: Evaluation of pollutants along the national road N2 in Togo using the AERMOD dispersion model. Journal of Health and Pollution, 2020,10(27):200908.Search in Google Scholar
ZHAO, D. - CHEN, H. - SHAO, H. - SUN, X.: Vehicle emission factors for particulate and gaseous pollutants in an urban tunnel in Xi’an, China. Journal of Chemistry, 2018.Search in Google Scholar
NATIONAL POLLUTION INVENTORY (NPI).: Emission Estimation Technique Manual for Combustion Engines Version 2.2., 2002, URL https://cwm.unitar.org/publications/publications/cbl/prtr/pdf/cat5/Australia_engines.pdf.Search in Google Scholar
NATIONAL POLLUTION INVENTORY (NPI).: Emission Estimation Technique Manual for Aggregated Emissions from Motor Vehicles, 2000, https://www.yumpu.com/en/document/read/49699291/emission-estimation-technique-manual-for-aggregated-unitar.Search in Google Scholar
ENERGY REGULATORY COMMISSION(ERC).: Report On Global Fuel Economy Study in Kenya (GFEI), 2014, URL https://www.globalfueleconomy.org/media/461029/africa_erc-gfei-kenya-finalnarative-report-23-07-2014-_2_.pdf.Search in Google Scholar
NATIONAL ENVIRONMENT MANAGEMENT AUTHORITY(NEMA).: The Environmental Management and Co-ordination Act (Air Quality) Regulations, 2014, URL https://www.nema.go.ke/images/Docs/Regulations/air/quality/regulations.pdf.Search in Google Scholar