Browsing by Author "Salami, Adebayo Wahab"

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    Cost effectiveness of sediment management strategies for mitigation of sedimentation at Jebba Hydropower reservoir, Nigeria
    (Elsevier, JournalofKingSaudUniversity–EngineeringSciences, 2016-01-22) Adeogun, Adeniyi Ganiyu; Sule,Bolaji Fatai; Salami, Adebayo Wahab
    Inthisstudy,acalibratedhydrologicmodel,SoilandWaterAssessmentTool (SWAT) interfacedwithGeographicalInformationSystem(GIS)toolwasusedtostudytheeffectofdiffer entsedimentmanagementmethodsinawatershed(12,992km2)upstreamofJebbaLake,Nigeria. Sedimentmanagementstrategiesconsideredare(i)reforestationofthewatershed,(ii)applicationof vegetativefilterstrip(VFS)and(iii)constructionofstonebunds.Costanalysisofimplementingthe selectederosioncontrolmeasureswithinthewatershedwasalsocarriedout tocomparethecost effectivenessof eachof themanagement strategies.Theresults showedthatapplicationofVFS, reforestation, andstonebunds tocritical zonesof thewatershedreducedthe sediment yieldup to65.6%,63.4%and12%respectivelywhilethefinancialanalysisof implementingreforestation, VFSandstonebundsrevealed84.9%,73.3%and70.5%reductionrespectivelyinthecoststobe incurredifsedimentsareallowedtoaccumulateinthedam.Fromthisanalysis, itcanbeconcluded thatthesedimentmanagementscenariosconsideredinthisstudyarecosteffectiveandsustainable whencomparedwiththecostsincurredintacklingtheeffectduetoreservoirsedimentation.Over all, thestudyshowedthathydrologicalmodelssuchasSWATcanbeusedtostudystrategiesfor waterresourcemanagement. Inaddition, itcanprovidepolicymakersthedecisionsupport tools toevaluatethecostandbenefitsofadoptingBestManagementPractices(BMPs)particularlyfor sedimentcontrol inerosionpronewatersheds.
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    GIS-based approach for morphometric characteristics and development of hydrographs for the upper watershed of Jebba Reservoir, Nigeria
    (Ethiop. J. Sci. Technol., 2021-10) Adeogun , Adeniyi Ganiyu; Mohammed, Apaalando; Ganiyu, Habeeb Oladimeji; Salami, Adebayo Wahab
    Nigeria's Jebba sub-basins are synonymous to frequent flooding, high rate of erosion, depletion of soil nutrients and unsustainable water use. The uncontrolled flooding may be a result of numerous factors related to topography, geology, climate and human activity. The present work was an attempt to describe the application of Geographical Information System (GIS) and Digital Elevation Model (DEM) for the estimation of morphometric characteristics of eight sub-basins in the upstream watershed of Jebba reservoir, Nigeria. Morphometric characteristics such as topographic, areal, relief and network were determined. Soil Conservation Service (SCS) technique was applied to estimate hydrographs. The study revealed that sub-basin number 3 had the lowest time of concentration and maximum depth of runoff while sub-basin number 2 had maximum ratio of circulation of 1.8 and it is tagged as the area that is highly prone to flood. The peak runoff in the sub-basins ranged between 330.10 and 924.86 m3/s (25-year return period) and for 100-year intervals ranged between 502.69 to 1408.40 m3/s. The estimated peak runoffs can be adopted for designing and constructing erosion control structures in the catchment area.
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    Sustainable management of erosion prone areas of upper watershed of Kainji hydropower dam, Nigeria
    (2018-05-05) Adeogun, Adeniyi Ganiyu; Ibitoye, Biliyamin Adeoye; Salami, Adebayo Wahab
    Reservoir sedimentation has been a major concern to stakeholders around the world in the implementa tion of sustainable management of hydropower dams. Not only that it reduces the storage capacity of reservoirs, several sediment related problems such as reduction in water quality and acceleration of abra sion of underwater parts can impair the primary purpose of which the reservoir is built. Therefore, sus tainable management of watersheds upstream of hydropower dam is necessary to combat the issues of sedimentation and to extend its useful life. In this study, Soil and Water Assessment Tool (SWAT) was interfaced with MapwindowGIS to model and predict sediment yield and concentration into sub basins of the upper watershed of Kainji hydropower dam in Nigeria which has an area of 30,350 km2. The model was run daily for 30 years and performance evaluation was carried out using Coefficient of Determination (R2) and Nash Sutcliffe Efficiency (NSE). Model calibration and validation as well as iden tification of erosion prone areas were equally achieved. The results showed that average annual sediment yield and concentration were 35.29 t/ha/year and 11,903.7 mg/l respectively. Application of filter strips on critical erosion prone region showed that sediment yield and concentration could be reduced up to 37% and 34% respectively. Also, construction of stone bunds in the watershed showed a reduction of up to 75% and 84% for sediment yield and concentration respectively. The outcome of this study could allow control effort to be focused effectively on an area identified as extreme cases and could also be used by relevant authorities in prioritizing implementation of Best Management Practices (BMPs) for the area.