Integrated Subsurface Temperature Modeling beneath Mt. Lawu and Mt. Muriah in The Northeast Java Basin, Indonesia
Autor: | Susilowati, M. Rizka Asmara Hadi, Sri Widowati, Kaswandhi Triyoso, Elfa Fatiah, Rio K. Martha, Insan Rizal Komara, M. Rizal Abda, Rizal Kurniadi, Bagus Endar B. Nurhandoko |
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Jazyk: | angličtina |
Rok vydání: | 2019 |
Předmět: |
Java
0211 other engineering and technologies Geochemistry 02 engineering and technology Environmental Science (miscellaneous) Structural basin 010502 geochemistry & geophysics 01 natural sciences mt. muriah east java basin 021108 energy kendeng zone 0105 earth and related environmental sciences computer.programming_language geography QE1-996.5 geography.geographical_feature_category geothermal heat flow Geology Volcano subsurface temperature fault activity volcanic activity General Earth and Planetary Sciences computer |
Zdroj: | Open Geosciences, Vol 11, Iss 1, Pp 341-351 (2019) |
ISSN: | 2391-5447 |
Popis: | The subsurface temperature has many impacts on geological phenomena such as hydrocarbon generation, geothermal energy, mineralization, and geological hazards. The Northeast Java Basin has various interesting phenomena, such as many oil fields, active faults, mud eruptions, and some active and dormant volcanoes. We measured temperature data from tens of wells along a 130 km survey line with an average spacing of 5 km. We also measured the thermal conductivity of rocks of various lithologies along the survey line to provide geothermal heat flow data. We propose integrated modeling for profiling the subsurface temperature beneath the survey line from Mt. Lawu to Mt. Muriah in the Northeast Java Basin. The modeling of subsurface temperature integrates various input data such as a thermal conductivity model, surface temperature, gradient temperature, a geological model, and geothermal heat flow. The thermal conductivity model considers the subsurface geological model. The temperature modeling uses the finite difference of Fourier’s law, with an input subsurface thermal conductivity model, geothermal heat flow, and surface temperature. The subsurface temperature profile along with survey line shows some interesting anomalies which correlate with either subsurface volcanic activity or the impact of fault activity. |
Databáze: | OpenAIRE |
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