GEOLOGICAL AND HYDROGEOLOGICAL STUDIES OF MOUNT KLABAT GEOTHERMAL AREA, NORTH SULAWESI
Mount Klabat is a Quarternary, or 200,000 years old precisely, type B stratovolcano located in North Sulawesi. In general, a Quarternary volcano like this will produce a geothermal system as indicated by the appearance of thermal manifestations on the surface. However, there are no thermal manife...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/53283 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Mount Klabat is a Quarternary, or 200,000 years old precisely, type B
stratovolcano located in North Sulawesi. In general, a Quarternary volcano like
this will produce a geothermal system as indicated by the appearance of thermal
manifestations on the surface. However, there are no thermal manifestations that
appears around Mount Klabat and only cold springs appears. This research aims
to understand the geological and hydrogeological conditions in estimating the
causes of the absence of thermal manifestations around Mount Klabat, while the
purpose of this research is to identify the buried geological structure, estimate the
thickness of the impermeable eruption products, and estimate the presence of
coldwater aquifers around Mount Klabat that may be related to the phenomenon
of the absence of active thermal manifestations here. The method used in this
research consist of soil CO2 – Hg and gravity data, geological mapping, and
water geochemistry analysis. The result of soil CO2 – Hg and gravity data
analysis are pre-field geological structure map. The result of this analysis will be
supported by the result of drainage pattern and slope analysis and also validated
by geological mapping. Geological structures that are indicated from secondary
data analysis but show no indication or evidence on the surface are thought to be
buried. The result of geological mapping is a geological map and geological
cross sections which are used to estimate the Mount Klabat’s impermeable
lithology thickness. The result of water geochemistry analysis is a cold springs
anomaly map. These anomalies are thought to occur due to the mixing of thermal
fluid from Mount Klabat with the cold water aquifers beneath the surface. The
results of all these analyzes are integrated and described in the form of a
conceptual model. The result of this research shows that there are faults that
interpreted to penetrate into the reservoir so that the reservoir fluid rises to the
surface through these faults, but near the surface, these faults are buried by
younger eruption products, so the fluid does not appear as a thermal
manifestation on the surface. Impermeable lithology in the form of andesite rocks
with a thickness of >1000 m prevents the reservoir fluid from emerging to the
surface, so the fluid flows into cold water aquifers beneath the surface. The
presence of cold water aquifers in the form of pyroclastic breccia, pumice
breccia, and ignimbrite at a depth of ±5 m beneath the surface mask the
appearance of thermal manifestations on the surface so that the manifestations
found on the surface are an anomaly cold springs. |
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