APPLICATION OF GRAVITY BOUGUER METHOD AND GRAVITY GRADIENT VERTICAL METHOD AT BANDUNG BASIN

APPLICATION OF GRAVITY BOUGUER METHOD AND GRAVITY GRADIENT VERTICAL METHOD AT BANDUNG BASIN

Bandung is one of many cities in Indonesia that has a subsidence phenomenon which is very massive exactly located at the Bandung Basin area. Subsidence caused by the compaction phenomenon effect of emptiness material at the aquifer zone which excessive groundwater extraction has been carried out....

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Main Author: Nugraha, Purwaditya
Format: Theses
Language:Indonesia
Subjects:
Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
Online Access:https://digilib.itb.ac.id/gdl/view/69625
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:69625
spelling id-itb.:696252022-11-02T13:38:03ZAPPLICATION OF GRAVITY BOUGUER METHOD AND GRAVITY GRADIENT VERTICAL METHOD AT BANDUNG BASIN Nugraha, Purwaditya Teknik (Rekayasa, enjinering dan kegiatan berkaitan) Indonesia Theses Subsidence, Bandung Basin, Compaction, Gravity Gradient Vertical, Gravity Bouguer. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/69625 Bandung is one of many cities in Indonesia that has a subsidence phenomenon which is very massive exactly located at the Bandung Basin area. Subsidence caused by the compaction phenomenon effect of emptiness material at the aquifer zone which excessive groundwater extraction has been carried out. Gravity method in this research used to identify the presence of the compaction zone beneath shallow subsurface and to delineate the geological structure of the subsurface. The residual Bouguer gravity method and gravity gradient vertical method is a geophysical method that is sensitive to differences of density in the subsurface but has high ambiguity in defining differences of that density in the vertical and horizontal direction. Application of residual Bouguer gravity method able to delineate the structure beneath the subsurface but has weakness to determine the shallow source anomaly, in this case, is compaction zone, on the other hand, gravity gradient vertical method able to determine shallow source anomaly but disable to delineate the structure like residual Bouguer gravity method. The combined application of residual Bouguer gravity method and the gravity gradient vertical method is expected to minimize that ambiguity and that lack both of that method. The application of this method in the Bandung Basin area shows that obtained two different in the compaction zone. The first compaction zone is at depth 40 meters with a thickness of 130 meters and has a density contrast 0.2 g/cc, where related with the geological structure in this form is a fault and anticline, then the second compaction zone is at depth 170 meters with a thickness of 100 meters and has a density contrast 0.1 g/cc, where related with the presence of basin structure. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
topic Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
spellingShingle Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
Nugraha, Purwaditya
APPLICATION OF GRAVITY BOUGUER METHOD AND GRAVITY GRADIENT VERTICAL METHOD AT BANDUNG BASIN
description Bandung is one of many cities in Indonesia that has a subsidence phenomenon which is very massive exactly located at the Bandung Basin area. Subsidence caused by the compaction phenomenon effect of emptiness material at the aquifer zone which excessive groundwater extraction has been carried out. Gravity method in this research used to identify the presence of the compaction zone beneath shallow subsurface and to delineate the geological structure of the subsurface. The residual Bouguer gravity method and gravity gradient vertical method is a geophysical method that is sensitive to differences of density in the subsurface but has high ambiguity in defining differences of that density in the vertical and horizontal direction. Application of residual Bouguer gravity method able to delineate the structure beneath the subsurface but has weakness to determine the shallow source anomaly, in this case, is compaction zone, on the other hand, gravity gradient vertical method able to determine shallow source anomaly but disable to delineate the structure like residual Bouguer gravity method. The combined application of residual Bouguer gravity method and the gravity gradient vertical method is expected to minimize that ambiguity and that lack both of that method. The application of this method in the Bandung Basin area shows that obtained two different in the compaction zone. The first compaction zone is at depth 40 meters with a thickness of 130 meters and has a density contrast 0.2 g/cc, where related with the geological structure in this form is a fault and anticline, then the second compaction zone is at depth 170 meters with a thickness of 100 meters and has a density contrast 0.1 g/cc, where related with the presence of basin structure.
format Theses
author Nugraha, Purwaditya
author_facet Nugraha, Purwaditya
author_sort Nugraha, Purwaditya
title APPLICATION OF GRAVITY BOUGUER METHOD AND GRAVITY GRADIENT VERTICAL METHOD AT BANDUNG BASIN
title_short APPLICATION OF GRAVITY BOUGUER METHOD AND GRAVITY GRADIENT VERTICAL METHOD AT BANDUNG BASIN
title_full APPLICATION OF GRAVITY BOUGUER METHOD AND GRAVITY GRADIENT VERTICAL METHOD AT BANDUNG BASIN
title_fullStr APPLICATION OF GRAVITY BOUGUER METHOD AND GRAVITY GRADIENT VERTICAL METHOD AT BANDUNG BASIN
title_full_unstemmed APPLICATION OF GRAVITY BOUGUER METHOD AND GRAVITY GRADIENT VERTICAL METHOD AT BANDUNG BASIN
title_sort application of gravity bouguer method and gravity gradient vertical method at bandung basin
url https://digilib.itb.ac.id/gdl/view/69625
_version_ 1822991089179557888

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