An investigation of temporal surface ozone concentration characteristics over Dar-es-Salam city
Date
2009Author
Straton, Fredrick Mugishagwe
Type
ThesisLanguage
enMetadata
Show full item recordAbstract
Tanzania, like many developing countries, has been facing air pollution problems
, through the Implementation of Air Quality Monitoring Capacity Building project
by National Environment Management Council. Efforts are underway to reduce the air
pollution in the fast growing city of Oar-es-salaam.
Air pollution is the most widespread form of pollution that impacts at local,
national and global levels affecting human health and well-being, vegetation, crops,
wildlife, buildings and other materials, and world's climate.
In Africa, as the rate of urbanization, motorization and economic activities increase air
quality in cities is progressively deteriorating more. Air pollution is emerging
as key threat to human health, the environment and the quality of life of millions of
Africans. The air quality in cities varies depending on the industrialization, population
and traffic density; and meteorological and topographical properties of the city.
Especially in industrialized cities, the pollutant exhausted, emitted and discharged by
the industrial foundations has the most significant effect.
This study addresses the linkages between meteorological processes and air
pollution in the atmosphere over the Oar -es- salaam city. The study establishes
influence of meteorological conditions like mean maximum and minimum
temperatures, mean rainfall, mean relative humidity, mean cloud amount and mean
wind speed with mean concentration of ozone over Dar- es- Salam city.
Simple correlation, regression analysis, and time series analysis were used in
order to achieve the above objectives. The relationships between ozone concentration
/at 0600Z and 1200Z and meteorological parameters such as maximum and minimum
temperatures, rainfall, relative humidity, cloud amount and wind speed during the
period of 2004-2008 were established. Rainfall, relative humidity and cloud amount
were inversely related to surface ozone concentration
Citation
Postgraduate diploma in meteorologySponsorhip
University of NairobiPublisher
Department of Meteorology University of Nairobi