ABSTRACT
Geothermal energy could be Climate Change Resilient subject to technological
interventions employed in production. Kenya seeks to safeguard herself from Climate
Change and its cascading impacts through clean energy sources such as Geothermal.
Possible interventions to Climate Change entail adaptation, mitigation and building
resilience. Most geothermal resources are located in fragile yet vital ecosystems including
Olkaria and Eburru where the study focused on. A benign geothermal technology has to
strike a balance between effective ecological functionality and economic prosperity for
sustainability. There is urgent need to upscale stable energy provision while safeguarding
important ecological zones necessary for Climate Resilience. The study determined the
chemical characteristics of geothermal effluents and rain water. Trace elements analyzed
for these samples included Barium, Boron, Cadmium, Zinc, Lead, Copper, fluoride,
sulphate, chloride, TDS and pH. Apart from these, concentrations of gases including
carbon dioxide, methane, hydrogen sulphide and particulate matter were determined.
Adequacy of technologies used in production were evaluated. This was achieved by
analyzing gaseous concentrations and quality of effluents at various points of emissions
and discharges. The capacity of intervening technologies to contain the fluid in a closed
loop, or to minimize emissions and effluents, such as effluents re-injection were examined.
The research design was exploratory since it offered integral insights as to the potential
unintended consequences of geothermal energy. The research instruments used were
focused group discussions, interviews, laboratory analysis, use of key informants and
observations guide. Purposive, snowballing and simple random sampling were used. 80
wells were selected for sampling. One sample t-test was done using SPSS software at 95%
confidence level. The results showed that geothermal exploration interfered with quality of
borehole water. The p – value for fluoride at DCK borehole was 0.00 while its sigma value
was 13.16. For discharging wells, p – value for boron concentration was 0.01 whereas its
sigma value was 4.42. For well sites, p – value for zinc analysis was 0.00 while the sigma
value was 3.98. The pH range for rain water was 5.76 to 6.86 which indicated acidic
tendencies. Therefore, the constituents of discharging wells were ascertained to have high
concentrations of trace elements that were toxic if released to the surrounding. The gaseous
emissions further affected quality of rain water whose pH values were largely acidic. The
gases released exceeded the permissible values for controlled zones. More so, the
technological inadequacies were inevitable due to utilization of flash systems which had
inherent handicaps. Average Carbon dioxide concentration was found to be 122.11 ppm
which was above that recommended for controlled zones. Essentially, geothermal
production had adverse impacts to the surrounding owing to technological inadequacies
which resulted in discharge of toxic metallic concentrations to the fragile ecosystems that
supported a wide range of species of plants and animals as well as social systems, all of
which are imperative for cementing climate change resilience. The most benign strategy
would be to contain the geothermal fluid within a closed loop system to minimize instances
of emissions or effluents onto the surrounding.
KARANJA, J (2021). Quality Of Geothermal Effluents And Emissions From Climate Change Resilient Technologies In Eburru And Olkaria, Nakuru County, Kenya. Afribary. Retrieved from https://track.afribary.com/works/quality-of-geothermal-effluents-and-emissions-from-climate-change-resilient-technologies-in-eburru-and-olkaria-nakuru-county-kenya
KARANJA, JOSEPH "Quality Of Geothermal Effluents And Emissions From Climate Change Resilient Technologies In Eburru And Olkaria, Nakuru County, Kenya" Afribary. Afribary, 01 Jun. 2021, https://track.afribary.com/works/quality-of-geothermal-effluents-and-emissions-from-climate-change-resilient-technologies-in-eburru-and-olkaria-nakuru-county-kenya. Accessed 27 Nov. 2024.
KARANJA, JOSEPH . "Quality Of Geothermal Effluents And Emissions From Climate Change Resilient Technologies In Eburru And Olkaria, Nakuru County, Kenya". Afribary, Afribary, 01 Jun. 2021. Web. 27 Nov. 2024. < https://track.afribary.com/works/quality-of-geothermal-effluents-and-emissions-from-climate-change-resilient-technologies-in-eburru-and-olkaria-nakuru-county-kenya >.
KARANJA, JOSEPH . "Quality Of Geothermal Effluents And Emissions From Climate Change Resilient Technologies In Eburru And Olkaria, Nakuru County, Kenya" Afribary (2021). Accessed November 27, 2024. https://track.afribary.com/works/quality-of-geothermal-effluents-and-emissions-from-climate-change-resilient-technologies-in-eburru-and-olkaria-nakuru-county-kenya