SURFACE DEFORMATION ANALYSIS USING PERSISTENT SCATTERER INTERFEROMETRIC SYNTHETIC APERTURE RADAR (PS-INSAR) METHOD FOR SARULLA GEOTHERMAL FIELD DEVELOPMENT
The Sarulla geothermal field has two exploited prospect areas since 2017, namely Namora-I-Langit and Silangkitang, and two unexploited prospect areas, namely Donotasik and Sibualbuali. The study on surface deformation in the Sarulla region aims to analyze the deformation characteristics caused by...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/77516 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The Sarulla geothermal field has two exploited prospect areas since 2017, namely
Namora-I-Langit and Silangkitang, and two unexploited prospect areas, namely
Donotasik and Sibualbuali. The study on surface deformation in the Sarulla region
aims to analyze the deformation characteristics caused by fluid extraction and
injection activities, as well as tectonic activities around the Sumatra Great Fault.
The surface deformation characteristics observed in the exploited areas are
subsequently used to aid the analysis of exploration targets in the unexploited
areas. The Persistent Scatterer Interferometric Synthetic Aperture Radar (PSInSAR)
method is applied to detect surface deformation phenomena in areas with
persistent scatterers (PS) values. Furthermore, the kriging estimation method is
applied to estimate deformation values in non-PS areas, referred to as distributed
scatterers (DS). SAR images used in this study are from SENTINEL-1A with both
ascending and descending orbit directions, recorded between 2017 and 2021.
Geophysical data in the form of microgravity and microearthquake data are used
as supporting data to interpret the causes of deformation. The average deformation
rate in the study area amounts to 0.39 mm/year with a standard deviation of 2.56
mm/year, defining the threshold for normal deformation. Anomalies in the
deformation rate exceeding this threshold are likely attributed to geothermal
exploitation, tectonic activity, or a combination of both. Geothermal exploitation
activities in Namora-I-Langit and Silangkitang induce highly significant
deformation anomalies ranging from -18 to 15 mm/year. Deformation resulting
from tectonic activities shows anomalies of approximately ±5 mm/year in the
vicinity of the Great Sumatra Fault. In the unexploited areas of Donotasik and
Sibualbuali, notable deformation anomalies of around ±5 mm/year are observed,
suggesting the presence of fault zones as permeable zones.
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