ABSTRACT
Nairobi is an urban city whoseair pollution is increasingly being recognizedas a major
publichealthandenvironmentalissue.This is due to poor or deterioratingair quality
which is as aresultsof high levels of energy consumption by industries, transport
and domestic use. Thenatureofairpollutionisdependentonthesourceprofile of thecity
and the presence ofsunlight topromote production ofsecondary pollutants, such as
ozone, through photochemical reactions. The study sought to analyze the spatialtemporal
variability of surface ozone over the city of Nairobi, and identify the
source region. Surface ozone data for Nairobi was obtained from Kenya Meteorological
Department ranging from the year 2011 to 2014. Another set of data was collected
fromfour sampling sites for a period of ten days to determine the special variability and
source of the surface ozone over the city of Nairobi. . Analysis of meteorological field
from National Centre for Environmental Prediction -National Centre for Atmospheric
Research (NCEP- NCAR) was used in running Hybrid Single Particle Lagrangian
Integrated (HYSPLIT)model. From the analysis it was found out that June, July and
August experienced the highest ozone levels compared to the other months of the year in
both lower and upper levels. This was due to incursion from the south according to the
backward trajectories from the HYSPLIT model, which has been proven to have high
ozone concentration during this season due to high biomass burning. On the other hand,
the diurnal variation of ozone in the foursampling sites namely Industrial Area,Nakumatt
Junction, Landhies Road and Pangani Roundabout, showed low ozone levels in the early
morning and at night hours, with the peak realized during the day. The peak in midday
could be due to the fact that surface ozone was produced by photochemical oxidation of
precursor gases that are produced by motor vehicle and industries. The highest eight-hour
mean was 20.2 ppb from industrial area site, which is below the WHO mean of 51 ppb.
Therefore, no much health effects are expected due to the exposure to surface ozone. It is
recommended that there should be a continuous monitoring of surface ozone and other
gases that are harmful to human health for better understanding and advice to the citizen.
KIMAYU, J (2021). Spatial-Temporal Variability Of Tropospherical Ozone In City Of Nairobi, Kenya. Afribary. Retrieved from https://tracking.afribary.com/works/spatial-temporal-variability-of-tropospherical-ozone-in-city-of-nairobi-kenya
KIMAYU, JULIUS "Spatial-Temporal Variability Of Tropospherical Ozone In City Of Nairobi, Kenya" Afribary. Afribary, 08 May. 2021, https://tracking.afribary.com/works/spatial-temporal-variability-of-tropospherical-ozone-in-city-of-nairobi-kenya. Accessed 25 Nov. 2024.
KIMAYU, JULIUS . "Spatial-Temporal Variability Of Tropospherical Ozone In City Of Nairobi, Kenya". Afribary, Afribary, 08 May. 2021. Web. 25 Nov. 2024. < https://tracking.afribary.com/works/spatial-temporal-variability-of-tropospherical-ozone-in-city-of-nairobi-kenya >.
KIMAYU, JULIUS . "Spatial-Temporal Variability Of Tropospherical Ozone In City Of Nairobi, Kenya" Afribary (2021). Accessed November 25, 2024. https://tracking.afribary.com/works/spatial-temporal-variability-of-tropospherical-ozone-in-city-of-nairobi-kenya