The comparison between in-situ monitored data and modelled results of nitrogen dioxide (NO(2)): case-study, road networks of Kigali city, Rwanda

The incomplete combustion of fossil fuels from petrol, natural gas, and fuel oil in the engine of vehicles contributes to air quality degradation through traffic-related air pollutant emissions. The Real-time affordable multi-pollutant (RAMPs) monitors were installed in Kigali, the capital of Rwanda...

Descripción completa

Detalles Bibliográficos
Autores principales: Irankunda, Elisephane, Török, Zoltán, Mereuță, Alexandru, Gasore, Jimmy, Kalisa, Egide, Akimpaye, Beatha, Habineza, Theobald, Shyaka, Olivier, Munyampundu, Gaston, Ozunu, Alexandru
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2022
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9800557/
https://www.ncbi.nlm.nih.gov/pubmed/36590563
http://dx.doi.org/10.1016/j.heliyon.2022.e12390
_version_ 1784861315818323968
author Irankunda, Elisephane
Török, Zoltán
Mereuță, Alexandru
Gasore, Jimmy
Kalisa, Egide
Akimpaye, Beatha
Habineza, Theobald
Shyaka, Olivier
Munyampundu, Gaston
Ozunu, Alexandru
author_facet Irankunda, Elisephane
Török, Zoltán
Mereuță, Alexandru
Gasore, Jimmy
Kalisa, Egide
Akimpaye, Beatha
Habineza, Theobald
Shyaka, Olivier
Munyampundu, Gaston
Ozunu, Alexandru
author_sort Irankunda, Elisephane
collection PubMed
description The incomplete combustion of fossil fuels from petrol, natural gas, and fuel oil in the engine of vehicles contributes to air quality degradation through traffic-related air pollutant emissions. The Real-time affordable multi-pollutant (RAMPs) monitors were installed in Kigali, the capital of Rwanda, to fill the gap in air quality datasets. Using RAMPs, this is the first air quality modelling research in Rwanda aiming to report the concentration of NO(2) by comparing In-situ monitored data and modelled results. We targeted NO(2) emissions from 27 road networks of Kigali to address the impacts of traffic emissions on air quality over 2021. The American Meteorological Society and Environmental Protection Agency regulatory models (AERMOD and ISCST3) were used for simulation. Statistical indexes include fractional bias (FB), the fraction of the prediction within the factor of two of the observations (FAC2), normalized mean square error (NMSE), geometric mean bias (MG), and geometric variance (VG) used to assess models' reliability. Monitoring shows the annual mean of 16.07 μg/m(3), 20.35 μg/m(3), and 15.46 μg/m(3) at Mont-Kigali, Gacuriro, and Gikondo-Mburabuturo stations, respectively. Modelling shows the daily mean of 111.77 μg/m(3) and annually mean of 50.42 μg/m(3) with AERMOD and daily mean of 200.26 μg/m(3) and annually mean of 72.26 μg/m(3) with ISCST3. The FB, NMSE, and FAC2 showed good agreement, while MG and VG showed moderate agreement with AERMOD. The FB, NMSE, and MG showed moderate agreement, while FAC2 and VG disagreed with ISCST3. Traffic and urban residential emissions were identified as potential sources of NO(2). Results indicated that Kigali residents are exposed to a significant level of NO(2) exceeding World Health Organisation limits. Findings will help track the effectiveness of Rwanda’s recently executed pollution-control policy, suggest evidence based on the recommendations to reduce NO(2), and use further dispersion models to support ground-based observations to improve public health.
format Online
Article
Text
id pubmed-9800557
institution National Center for Biotechnology Information
language English
publishDate 2022
publisher Elsevier
record_format MEDLINE/PubMed
spelling pubmed-98005572022-12-31 The comparison between in-situ monitored data and modelled results of nitrogen dioxide (NO(2)): case-study, road networks of Kigali city, Rwanda Irankunda, Elisephane Török, Zoltán Mereuță, Alexandru Gasore, Jimmy Kalisa, Egide Akimpaye, Beatha Habineza, Theobald Shyaka, Olivier Munyampundu, Gaston Ozunu, Alexandru Heliyon Research Article The incomplete combustion of fossil fuels from petrol, natural gas, and fuel oil in the engine of vehicles contributes to air quality degradation through traffic-related air pollutant emissions. The Real-time affordable multi-pollutant (RAMPs) monitors were installed in Kigali, the capital of Rwanda, to fill the gap in air quality datasets. Using RAMPs, this is the first air quality modelling research in Rwanda aiming to report the concentration of NO(2) by comparing In-situ monitored data and modelled results. We targeted NO(2) emissions from 27 road networks of Kigali to address the impacts of traffic emissions on air quality over 2021. The American Meteorological Society and Environmental Protection Agency regulatory models (AERMOD and ISCST3) were used for simulation. Statistical indexes include fractional bias (FB), the fraction of the prediction within the factor of two of the observations (FAC2), normalized mean square error (NMSE), geometric mean bias (MG), and geometric variance (VG) used to assess models' reliability. Monitoring shows the annual mean of 16.07 μg/m(3), 20.35 μg/m(3), and 15.46 μg/m(3) at Mont-Kigali, Gacuriro, and Gikondo-Mburabuturo stations, respectively. Modelling shows the daily mean of 111.77 μg/m(3) and annually mean of 50.42 μg/m(3) with AERMOD and daily mean of 200.26 μg/m(3) and annually mean of 72.26 μg/m(3) with ISCST3. The FB, NMSE, and FAC2 showed good agreement, while MG and VG showed moderate agreement with AERMOD. The FB, NMSE, and MG showed moderate agreement, while FAC2 and VG disagreed with ISCST3. Traffic and urban residential emissions were identified as potential sources of NO(2). Results indicated that Kigali residents are exposed to a significant level of NO(2) exceeding World Health Organisation limits. Findings will help track the effectiveness of Rwanda’s recently executed pollution-control policy, suggest evidence based on the recommendations to reduce NO(2), and use further dispersion models to support ground-based observations to improve public health. Elsevier 2022-12-17 /pmc/articles/PMC9800557/ /pubmed/36590563 http://dx.doi.org/10.1016/j.heliyon.2022.e12390 Text en © 2022 The Author(s) https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Research Article
Irankunda, Elisephane
Török, Zoltán
Mereuță, Alexandru
Gasore, Jimmy
Kalisa, Egide
Akimpaye, Beatha
Habineza, Theobald
Shyaka, Olivier
Munyampundu, Gaston
Ozunu, Alexandru
The comparison between in-situ monitored data and modelled results of nitrogen dioxide (NO(2)): case-study, road networks of Kigali city, Rwanda
title The comparison between in-situ monitored data and modelled results of nitrogen dioxide (NO(2)): case-study, road networks of Kigali city, Rwanda
title_full The comparison between in-situ monitored data and modelled results of nitrogen dioxide (NO(2)): case-study, road networks of Kigali city, Rwanda
title_fullStr The comparison between in-situ monitored data and modelled results of nitrogen dioxide (NO(2)): case-study, road networks of Kigali city, Rwanda
title_full_unstemmed The comparison between in-situ monitored data and modelled results of nitrogen dioxide (NO(2)): case-study, road networks of Kigali city, Rwanda
title_short The comparison between in-situ monitored data and modelled results of nitrogen dioxide (NO(2)): case-study, road networks of Kigali city, Rwanda
title_sort comparison between in-situ monitored data and modelled results of nitrogen dioxide (no(2)): case-study, road networks of kigali city, rwanda
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9800557/
https://www.ncbi.nlm.nih.gov/pubmed/36590563
http://dx.doi.org/10.1016/j.heliyon.2022.e12390
work_keys_str_mv AT irankundaelisephane thecomparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT torokzoltan thecomparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT mereutaalexandru thecomparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT gasorejimmy thecomparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT kalisaegide thecomparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT akimpayebeatha thecomparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT habinezatheobald thecomparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT shyakaolivier thecomparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT munyampundugaston thecomparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT ozunualexandru thecomparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT irankundaelisephane comparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT torokzoltan comparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT mereutaalexandru comparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT gasorejimmy comparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT kalisaegide comparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT akimpayebeatha comparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT habinezatheobald comparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT shyakaolivier comparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT munyampundugaston comparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda
AT ozunualexandru comparisonbetweeninsitumonitoreddataandmodelledresultsofnitrogendioxideno2casestudyroadnetworksofkigalicityrwanda

Ejemplares similares