A Review on Reservoirs Sedimenation Problems in Ethiopia|Asian Journal of Advanced Research and Reports

Environmental consequences and long-term morphological alterations on the natural water course, primarily owing to human involvement, soil erosion (water erosion), and sedimentation of reservoirs. Landscape creation is aided by natural processes such as soil erosion and sedimentation. Soil erodibility, soil textural class, organic matter concentration, watershed area, topography, and vegetation cover are all factors that influence cumulative sediment output. Accelerated sedimentation of reservoirs that provide hydroelectric power and irrigation water in Ethiopia has resulted in the loss of these services. The decrease of storage capacity in hydroelectric power reservoirs is also partly to blame for the country’s recent power outages and rationing-based electric power distribution. Sediment deposited in river channels and reservoirs as a result of soil erosion is a key source of several environmental problems, including sediment deposition in river channels and reservoirs, which degrades water quality. Sedimentation is a major pollutant in surface waterways that has a negative impact on water quality and contains other contaminants such as fertilisers, pesticides, and heavy metals. Cu, Pb, As, and Hg, which are transferred with sediments and are exceedingly poisonous even in small concentrations, impact the quality of water in dams for various purposes. The suspended solids in the eroded material raise the turbidity of the raw water (i.e., the water becomes muddy and physically dirty), which raises water treatment expenses.

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Seismic Attributes Mapping and 3D Static Modeling of Reservoirs within “OYA” Field, Offshore Depobelt, Niger Delta Sedimentary Basin, Nigeria

An integrated 3D seismic data, checkshot data and suite of well logs for nine wells in “OYA” field, Offshore, Niger Delta were analyzed for reservoir characterization, 3D static modeling and volumetric analysis. This study is majorly in two folds: the first focuses on the application of 3D static model by incorporating all the geologic characteristics within subsurface volume that are relatively stable over long periods of time for optimization and development of hydrocarbon potentials in “OYA” field while the use of seismic attributes to map and identify new prospects that can be possibly explored in the same field. Geological structural and property models (net to gross, porosity, permeability, and water saturation) were distributed stochastically within the constructed 3D grid using the method of Sequential Gaussian Simulation algorithms. Depth structural maps and seismic attribute maps generated shows the trapping mechanisms to be a fault assisted anticlinal closure and four way closures while new hydrocarbon prospects were delineated respectively. The result (output) of the 3D static model was used to carry out volumetric analysis which divided the three reservoirs (Sand 1, 2 and 3) into two zones; the first zone [sand 1- sand 2(surface depths)] with a STOIIP of 4.93344*10⁶ Stock tank barrel of recoverable oil while the second zone [sand 2-sand 3 (surface depths)] have a STOIIP value of 500369*10⁶ Stock tank barrel of recoverable oil. This research work has demonstrated how new hydrocarbon prospects can be further explored in the field. 3D static geologic models and volumetric analysis of evaluated reservoirs in the already drilled wells shows evidence of good hydrocarbon yield in the field of study.

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