Groundwater potential in tertiary and triassic sediments in Kidiani area, Kwale district, Kenya
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Date
1991Author
Gichaba, Charles M
Type
ThesisLanguage
enMetadata
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This thesis describes the results of a hydrogeological project carried out in Kidiani
Area of Kwale District, about 60 kilometres south-west of Mornbasa.
With a view to evaluate the groundwater potential in Kidiani Area, Kwale District,
geophysical resistivity method was applied. Here, the vertical electrical sounding
(VES) was done using the Schlumberger electrode configuration. The VES results
show that potable water zones occur in both Magarini sands and Mazeras
sandstones. Iterative, non-automatic inversion of VES data, coupled with borehole
information, resolved with some confidence the conductive j non-conductive water
interfaces and revealed some correspondence between the lithostratigraphic units
and resistivity values.
Maps of resistivity and transverse resistance values agree reasonably with the
general hydrogeological conditions in the area. Within the Mazeras sandstones the
results suggest that groundwater is strongly associated with the presence of
structural features in the subsurface where seasonal recharge is likely.
Correlations have been established between the conductive zone resistivity and the
water salinity and to a lesser extent between the transverse resistance and the
potential area(s) for groundwater prospecting.
From the available Recovery test data of the wells in the area, Jacob's straight line
method of analysis depicted the nature and the well characteristics mainly
transmissivity, (T) and specific capacity,(QjS) with sufficient confidence.
Determination of some aquifer limitations and to a lesser extent, relative well
efficiency were also made.
Further, groundwater analysis was carried out to determine its quality and possible
uses. Generally, it is observed that groundwater in the Tertiary Magarini and
Kilindini sands has lower salinity than the water in the Triassic Mazeras sandstones.
From the observations made in this study, it can be concluded that the Cenozoic
Magarini and Kilindini sands have ahigher groundwater potential than the Tertiary
Mazeras sandstones. Moreover, these observations could be used to assist in the
exploration and evaluation of groundwater resources in new target areas in the
Coast Province where lithostratigraphical and hydrogeological information is very
limited.
Citation
M.Sc. (Geology) Thesis 1991Sponsorhip
University of NairobiPublisher
Department of Geology, University of Nairobi
Description
Master of Science Thesis