Benjamin Sosi scite author profile

A hydrogeochemical relation has been hypothesized through the analyses of physiochemical data of a fractured volcanic rock aquifer located in the Lower Baringo Basin, Kenyan Rift. Data sets included 15 individual metrics determined in 42 dry and wet season water samples obtained from 6 boreholes in the area. Aquifer evolutionary theory was postulated using sequential principal component analysis (PCA) and hierarchical cluster analysis. To eliminate the effects of scale dimensionality, PCA decomposed the variable data into 4 factors, namely, electrical conductivity, salinity, alkalinity, and carbonate equilibrium with external pH control for the dry season and salinity, carbonate equilibrium with external pH control, alkalinity, and electrical conductivity for the wet season. The main result depicted a major shift in the variability factor from electrolytic conductivity (34.8%) in the dry season to salinity (23.5%) in the wet season. Ward’s linkage cluster analysis partitioned the aquifer into 2 spatially discrete associations; the western and the eastern entities, respectively, in spite of their shared recharge area. These agglomerative scheduling validated in an integrative approach (with groundwater flow predictions using a calibrated petrophysical groundwater model for the area) linked the 4 factors to aquifer processes and 3 pathways: fault permeability, weathering processes, and water-rock interaction. Statistical approaches are, therefore, useful in the conceptualization of pollutant sources and their attenuation for effective groundwater quality management.

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Nonlinear Correlation analysis between Surface Resistivity and Hydraulic Characteristics of the Kabatini Well Field, Upper Lake Nakuru Basin, Kenya Rift

Sosi¹,

Cheboi²,

Simiyu³

2013

IOSRJAGG

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The purpose of the study was to find and examine correlation relationships between field-scale hydraulic parameters and pore-scale geo-electrical parameter controlling groundwater occurrence in Kabatini aquifer of Upper Lake Nakuru Basin, Kenya. The study has taken under consideration priori published resistivity sounding and hydrological parameters and depth of water table from drill siteswhich is used to constrain ambiguity of interpretation. An attempt has been made to derive general functional relationships between hydraulic parameters and geo-electric property of the aquifer.The observed hydraulic data from pumping test is correlated nonlinearly with aquifer electrical resistivity. The formation resistivity factor was found vary partially with pore volume and pore surface distribution. Porosity as a function of aquifer resistivity was best defined by a negative power law function, whereas transmissivity dependence on resistivity was found to bear a positive power law. The aquifer parameters information thus obtained from resistivitysounding and pumpingtest data can be used for optimal management and assessment of groundwater resources.

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Hydrogeophysical Characterization of a Weathered-Fractured Aquifer System: A Case study of Olbanita, Lower Baringo Basin, Kenya Rift

Sosi¹,

Barongo²,

Getabu³

et al. 2019

JWARP

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Groundwater yields in the Kenya Rift are highly unsustainable owing to geological variability. In this study, field hydraulic characterization was performed by using geo-electric approaches. The relations between electrical-hydraulic (eh) conductivities were modeled hypothetically and calibrated empirically. Correlations were based on the stochastic models and field-scale hydraulic parameters were contingent on pore-level parameters. By considering variation in pore-size distributions over eh conduction interval, the relations were scaled-up for use at aquifer-level. Material-level electrical conductivities were determined by using Vertical Electrical Survey and hydraulic conductivities by analyzing aquifer tests of eight boreholes in the Olbanita aquifer located in Kenya rift. VES datasets were inverted by using the computer code IP2Win. The main result is that

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Hydrogeophysical Characterization of a Weathered-Fractured Aquifer System: A Case study of Olbanita, Lower Baringo Basin, Kenya Rift

Sosi¹,

Barongo²,

Getabu³

et al. 2019

JWARP

View full text Add to dashboard Cite

show abstract

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Benjamin Sosi

Relationship Between Aquifer Processes and Groundwater Quality: A Case of Olbanita Aquifer System, Lower Baringo Basin, Kenya Rift

Nonlinear Correlation analysis between Surface Resistivity and Hydraulic Characteristics of the Kabatini Well Field, Upper Lake Nakuru Basin, Kenya Rift

Hydrogeophysical Characterization of a Weathered-Fractured Aquifer System: A Case study of Olbanita, Lower Baringo Basin, Kenya Rift

Hydrogeophysical Characterization of a Weathered-Fractured Aquifer System: A Case study of Olbanita, Lower Baringo Basin, Kenya Rift

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