TY - JOUR
T1 - Resistivity structural imaging of the Olkaria Domes geothermal field in Kenya using 2D and 3D MT Data inversion
AU - Omollo, Philip
AU - Nishijima, Jun
AU - Fujimitsu, Yasuhiro
AU - Sawayama, Kazuki
N1 - Funding Information:
We are grateful to Kenya Electricity Generating Company PLC (KenGen) Management for supporting this study and providing MT data to carry out the research, especially from the geophysics team. The authors are Indebted to Japan International Cooperation Agency (JICA) for their possible support in this research. Thanks, and appreciation to Gary Egbert and Anna Kelbert for using their ModEM code to carry out the 3D MT inversion. Finally, we would like to appreciate and thank the editor and the three anonymous reviewers for their comments and recommendation on improving the manuscript to fruition.
Publisher Copyright:
© 2022
PY - 2022/7
Y1 - 2022/7
N2 - The 2D and 3D MT inversion from 290 soundings were analyzed to visualize the nature and extent of structural control of the Olkaria geothermal reservoir system within and outside the ring structure. The ring structure bounds the drilled geothermal field under exploitation to the east and south of Olkaria Domes. The nature of subsurface structures was classified using dimensionality analysis. The resistivity models revealed three layers varying with depth. The upper conductive layer immediately below the surface as the reservoir seal, underlain by a resistive reservoir zone at about 2.5−4km, and the deeper conductive zone at a depth of about 5.5−8km interpreted as the heat source. The resistivity structure forming a channel to the near surface, is interpreted as the hydrothermal fluid's fault pathway. The study also shows the structures resembling sill formations mapped outside the geothermal system in the Domes field, while the dykes predominate in the reservoir.
AB - The 2D and 3D MT inversion from 290 soundings were analyzed to visualize the nature and extent of structural control of the Olkaria geothermal reservoir system within and outside the ring structure. The ring structure bounds the drilled geothermal field under exploitation to the east and south of Olkaria Domes. The nature of subsurface structures was classified using dimensionality analysis. The resistivity models revealed three layers varying with depth. The upper conductive layer immediately below the surface as the reservoir seal, underlain by a resistive reservoir zone at about 2.5−4km, and the deeper conductive zone at a depth of about 5.5−8km interpreted as the heat source. The resistivity structure forming a channel to the near surface, is interpreted as the hydrothermal fluid's fault pathway. The study also shows the structures resembling sill formations mapped outside the geothermal system in the Domes field, while the dykes predominate in the reservoir.
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U2 - 10.1016/j.geothermics.2022.102414
DO - 10.1016/j.geothermics.2022.102414
M3 - Article
AN - SCOPUS:85129520806
SN - 0375-6505
VL - 103
JO - Geothermics
JF - Geothermics
M1 - 102414
ER -
