Identifying Permeability Controls By Use Of Gravity Method In Menengai Geothermal Field, Kenya

ABSTRACT

Surface studies done in Menengai field have indicated a huge geothermal potential and has led to the drilling of several wells. However, some of these wells have not produced as earlier projected and there are questions as to whether this field has enough permeability. The purpose of this study was to employ gravity method to understand density variations in the Menengai field by developing structural models and establishing whether there is enough permeability. Raw data received from Kengen and GDC was reduced to simple Bouguer data by subjecting it to all reduction procedures and gravity models developed using a Golden software program called Surfer. These models were then subjected to specific filters that helped in identification of structures responsible for permeability. These filters are: Band pass filter; applied to remove certain wavelengths, horizontal derivative filter; applied to image zones of sharp contrasts. Density inversion from results of simple Bouguer anomaly readings were generated by 3D inversion Grablox1.6 programme that calculated synthetic gravity anomaly of a 3D block model. Comparison of gravity and resistivity models indicates a good resemblance of the magmatic intrusion and the Tecto-Volcanic Axis (TVA’s). From this analysis, permeability controls for Menengai geothermal field were identified as follows: caldera rim faults that contribute mostly to deep vertical recharge, NNE-SSW faults along Solai graben, NNW-SSE faults along Molo axis, the southern fault extending towards Lake Nakuru and the uplifting dome in the central part of the caldera which enhance further fracturing within the caldera. This has led to a conclusion that there is enough permeability in Menengai geothermal field. The research and its findings therefore have shown that gravity should be used as a key technique rather than a preliminary tool in geothermal exploration. The practice has mainly been to use gravity for deformation monitoring or as a preliminary tool. However, failure by other techniques in identifying permeability controls forms the basis of this study and from the results; it has been found that if well utilised gravity method could solve the many challenges encountered in geothermal exploration. The results from this study therefore would be of high importance to GDC if adopted and used in locating sites where geothermal wells can be drilled and to future researchers.

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APA

GICHIRA, J (2021). Identifying Permeability Controls By Use Of Gravity Method In Menengai Geothermal Field, Kenya. Afribary. Retrieved from https://afribary.com/works/identifying-permeability-controls-by-use-of-gravity-method-in-menengai-geothermal-field-kenya

MLA 8th

GICHIRA, JOSEPH "Identifying Permeability Controls By Use Of Gravity Method In Menengai Geothermal Field, Kenya" Afribary. Afribary, 13 May. 2021, https://afribary.com/works/identifying-permeability-controls-by-use-of-gravity-method-in-menengai-geothermal-field-kenya. Accessed 24 Nov. 2024.

MLA7

GICHIRA, JOSEPH . "Identifying Permeability Controls By Use Of Gravity Method In Menengai Geothermal Field, Kenya". Afribary, Afribary, 13 May. 2021. Web. 24 Nov. 2024. < https://afribary.com/works/identifying-permeability-controls-by-use-of-gravity-method-in-menengai-geothermal-field-kenya >.

Chicago

GICHIRA, JOSEPH . "Identifying Permeability Controls By Use Of Gravity Method In Menengai Geothermal Field, Kenya" Afribary (2021). Accessed November 24, 2024. https://afribary.com/works/identifying-permeability-controls-by-use-of-gravity-method-in-menengai-geothermal-field-kenya