HYDROTHERMAL FLUID EVOLUTION OF RANTAU DEDAP GEOTHERMAL FIELD, SOUTH SUMATRA
This research was conducted to determine the fluid evolution in the active production wells, namely RD-I2, RD-L3, and RD-M3 of the Rantau Dedap Geothermal Field. This study compared the characteristics of ancient hydrothermal fluid and the current fluid flow from the wells. The ancient fluid cha...
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id-itb.:795752024-01-10T14:01:32ZHYDROTHERMAL FLUID EVOLUTION OF RANTAU DEDAP GEOTHERMAL FIELD, SOUTH SUMATRA Sakinatul Hasanah, Lara Geologi, hidrologi & meteorologi Indonesia Theses Hydrothermal alteration, activity diagram, hydrothermal fluid, geothermal INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/79575 This research was conducted to determine the fluid evolution in the active production wells, namely RD-I2, RD-L3, and RD-M3 of the Rantau Dedap Geothermal Field. This study compared the characteristics of ancient hydrothermal fluid and the current fluid flow from the wells. The ancient fluid characteristic was determined from the distribution of hydrothermal alteration minerals obtained by petrography, X-Ray Dif raction (XRD), and Methylene Blue (MeB) analysis. The current fluid characteristics were identified by chemistry analysis of water samples that flow out from the well. The data used include 15 drill cuttings samples, 26 thin section samples of cuttings, four thin section samples of core, 10 XRD analyses by clay mineral preparation method, water chemistry, and MeB of well data. Based on the results of petrography, XRD, and MeB analyses, the subsurface hydrothermal alteration zones in the three wells were classified into four, namely Alteration Zones of Smectite, Chlorite+Calcite±Anhydrite, Chlorite+Epidote, and Ilite+Epidote. The ancient top of geothermal reservoir (ToR), determined from the first appearance of epidote at elevation of +1,300 to +1,350 m, and in well RD- M3, it deepened to elevation of +1,270 m. The reservoir fluid had temperatures of 200-250°C, even at 280°C, and neutral pH. The processes in the ancient hydrothermal fluids were boiling, mixing, condensation, and neutralization. The characteristics of the current reservoir fluid are fully equilibrium alkaline chloride water. The temperature and pressure measurement shows that the current reservoir fluid has temperature of 255-260°C with ToR at elevation of +800 to +1,100 m elevation. The hydrothermal fluid is still boiling, especially in wells RD-I2 and RD-M3. The evolution of the hydrothermal fluid shows a deepening of ToR. The hydrothermal fluid also cools and becomes more alkaline. text |
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Geologi, hidrologi & meteorologi Sakinatul Hasanah, Lara HYDROTHERMAL FLUID EVOLUTION OF RANTAU DEDAP GEOTHERMAL FIELD, SOUTH SUMATRA |
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This research was conducted to determine the fluid evolution in the active
production wells, namely RD-I2, RD-L3, and RD-M3 of the Rantau Dedap
Geothermal Field. This study compared the characteristics of ancient
hydrothermal fluid and the current fluid flow from the wells. The ancient fluid
characteristic was determined from the distribution of hydrothermal alteration
minerals obtained by petrography, X-Ray Dif raction (XRD), and Methylene Blue
(MeB) analysis. The current fluid characteristics were identified by chemistry
analysis of water samples that flow out from the well. The data used include 15
drill cuttings samples, 26 thin section samples of cuttings, four thin section
samples of core, 10 XRD analyses by clay mineral preparation method, water
chemistry, and MeB of well data. Based on the results of petrography, XRD, and MeB analyses, the subsurface
hydrothermal alteration zones in the three wells were classified into four, namely
Alteration Zones of Smectite, Chlorite+Calcite±Anhydrite, Chlorite+Epidote, and
Ilite+Epidote. The ancient top of geothermal reservoir (ToR), determined from the
first appearance of epidote at elevation of +1,300 to +1,350 m, and in well RD- M3, it deepened to elevation of +1,270 m. The reservoir fluid had temperatures of
200-250°C, even at 280°C, and neutral pH. The processes in the ancient
hydrothermal fluids were boiling, mixing, condensation, and neutralization. The characteristics of the current reservoir fluid are fully equilibrium alkaline
chloride water. The temperature and pressure measurement shows that the
current reservoir fluid has temperature of 255-260°C with ToR at elevation of
+800 to +1,100 m elevation. The hydrothermal fluid is still boiling, especially in
wells RD-I2 and RD-M3. The evolution of the hydrothermal fluid shows a deepening of ToR. The
hydrothermal fluid also cools and becomes more alkaline. |
| format |
Theses |
| author |
Sakinatul Hasanah, Lara |
| author_facet |
Sakinatul Hasanah, Lara |
| author_sort |
Sakinatul Hasanah, Lara |
| title |
HYDROTHERMAL FLUID EVOLUTION OF RANTAU DEDAP GEOTHERMAL FIELD, SOUTH SUMATRA |
| title_short |
HYDROTHERMAL FLUID EVOLUTION OF RANTAU DEDAP GEOTHERMAL FIELD, SOUTH SUMATRA |
| title_full |
HYDROTHERMAL FLUID EVOLUTION OF RANTAU DEDAP GEOTHERMAL FIELD, SOUTH SUMATRA |
| title_fullStr |
HYDROTHERMAL FLUID EVOLUTION OF RANTAU DEDAP GEOTHERMAL FIELD, SOUTH SUMATRA |
| title_full_unstemmed |
HYDROTHERMAL FLUID EVOLUTION OF RANTAU DEDAP GEOTHERMAL FIELD, SOUTH SUMATRA |
| title_sort |
hydrothermal fluid evolution of rantau dedap geothermal field, south sumatra |
| url |
https://digilib.itb.ac.id/gdl/view/79575 |
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