School of Environmental Sciences

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https://repository.futo.edu.ng/handle/20.500.14562/1243

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Browsing School of Environmental Sciences by Subject "Department of Environmental Engineering"

Now showing 1 - 3 of 3
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    Application of geographic information system (GIS) in accuracy assessment of existing land use map a case study of Enugu Area, South-Eastern Nigeria
    (Scientific & Academic Publishing, 2012) Onunkwo, A. A.; Nwankwo, G. I.; Uzoije, A. P.; Okereke, C. N.
    It is suspected that continuous building collapses within Enugu area is due to faulty landuse map. This work aims at employing geographic information system principles to assess the validity of the existing landuse map of Enugu area. Three landuse options were considered (Industrial, residential and waste). The study was undertaken using Arc view 3.2a academic, Excel Statistical Software and autocard software of GIS. A total of 12 landuse determinants were selected as thematic data layers and basic factors influencing the choice of industrial, residential and waste disposal landuses. Soil characteristics and geology were integrated into the thematic maps to facilitate the weighting of the basic determinants. The thematic layers were weighted on a scale of 0% - 100% and 0-2 inclusive, using the criteria obtained from field work and laboratory investigation. The thematic layers for each landuse were subjected to overlay using arc view software overlay model builder. The operation yielded three (3) different landuse maps (Industrial, residential and wasted disposal,) which were further superimposed to produce a composite landuse map useful for regional and urban planning. Correlation with existing landuse map, exposed a lot of limitations of the existing landuse map. All the residential and industrial areas of the existing landuse map fall within the low capacity areas of the present study. Areas selected as open space by the existing landuse map correspond to the areas of industrial and residential land uses of the present study. Areas limited for use by the present study due to hazards of flooding, landslide, fault and gully erosion were not considered by the existing landuse map, rather they were mapped out for industrial, residential and partly as open space. The existing landuse map has no provision for waste disposal. The present study shows that areas to the West, Southwest and Southeast are highly suitable for industrial and residential landuses. The limitations of the existing landuse map exposed by the present study must have accounted for the cases of building collapses in the area.
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    Application of geographic information system (GIS) in industrial land capability index mapping of a developing country . a case study of Enugu area , South- Eastern Nigeria
    (2011-08-05) Onunkwo, A. A.; Uzoije, A. P.; Onyekuru, S. O.
    It was projected that the population of Enugu area will grow at approximately 300% by the year 2020. The information is further strengthened by the projected 3,237,298 population figure of the area. This implies that there is the expectation of overpopulation of the area in future. Unemployment and lowering of people’s standard of living are always associated with over population. It therefore, becomes necessary to map out areas on a sustainable basis and most suitable for the sighting of industries to employ the teeming population. Land capability index mapping using Geographic Information System (GIS) principles was used for this study. The study was undertaken using Arc View 3.2a academic, Excel statistical soft-ware and auto card software of GIS. A total of 12 land use determinants were selected as thematic data layers and basic factors influencing the choice of industrial land use. Soil characteristics and geology were integrated into the thematic maps to facilitate the weighting of the basic determinants. The thematic layers were weighted on a scale of 0%-100% and 0-2 inclusive, using the criteria obtained from field work and laboratory investigation. The thematic layers were subjected to overlay using arc view soft ware overlay model builder. The operation yielded a layer of preferred industrial land use options in a map form. 3 areas of varying suitabilities (Area 7,8 and 9) resulted from this operation. Area 7 occupies 10% of the study area suitable for industrial land use options; area 8 occupies 70% and has low suitability for industrial land use while area 9 occupies 20% of the land unit unsuitable for industrial land use.
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    Oil and grease removal from vegetable oil polluted wastewater; advanced oxidation process approach (Fenton Process )
    (Elixir International Journal, 2015) Uzoije, Atulegwu Patrick; Kamalu, Clifford. I. O.; Uzoigwe, Luke
    Oil and grease removal process, through the use of fenton oxidation reaction on an oil polluted wastewater from a vegetable oil plant has been studied. The study was designed to assess the effectiveness of fenton oxidation reaction process in eliminating oil and grease contaminant in the wastewater. The raw wastewater was subjected to analysis through standard methods to determine BOD, Oil and grease, phenol, salinity and sodium batch oxidation process was adopted to remove the oil and grease in which four input parameters ; ph, Fe2+, temperature and hydrogen peroxide(H2O2) were considered. Four runs of experiment were performed where each parameter was varied while the other three remained constant. In each run, oil and grease removal was determined at ten minutes interval for 60 minutes through analysis. The results showed that the highest oil and grease removal efficiencies of 96.28% 98.74%, 99.02 and 93.03%were achieved at the optimum conditions of ph=3, fe2+=3.2 g/l, temp=450C and H2O2=4.5moles respectively and the oil and grease removal was progressive with time until at the point of inflection at 50 minutes where the removal appeared steady. Oil and grease removal efficiency was highly sensitive to the operating conditions. At excess values of the operating conditions, that is, at values beyond the optimum values, the rate of formation of the hydroxyl radical (OH•) became sluggish, impairing removal process. This also explained why the removal efficiency progressed to the plateau at the optimum condition values, and then declined as the values of the operating conditions increased.