THE INFLUENT OF INTENSITY AND TYPE OF ALTERATION TO THE SECONDARY POROSITY OF THE PRE-TERTIARY BASEMENT ROCK BASED ON PETROLOGICAL STUDY FROM JSB-3, JSB-4 AND JSB-6 WELLS, JAMBI SUB BASIN, SOUTH SUMATRA
Study area located at the Jambi Sub Basin, South Sumatra. To the north the Jambi Sub Basin is bounded by the Tigapuluh Mountain, to the west by the Barisan Mountain Ranges, to the south by basement high partly shown as the Duabelas mountain, to the east by the basement high partly shown as Belitu...
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| Format: | Theses |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/69663 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Study area located at the Jambi Sub Basin, South Sumatra. To the north the Jambi Sub
Basin is bounded by the Tigapuluh Mountain, to the west by the Barisan Mountain
Ranges, to the south by basement high partly shown as the Duabelas mountain, to the
east by the basement high partly shown as Belitung, Bangka, Singkep and Lingga
Islands.
Lithology of the pre-Tertiary basement at the Jambi Sub Basin is dominated by andesite
in JSB-3, granite in JSB-4 and granodiorite in JSB-6. Magma crystallization in the study
area indicates fractionation crystallization mechanism represented by phorfiritic and
glomerophorfiritic textures (at JSB-3), there are also magma mixing process during
magma generation indicated by unbalancing texture in plagioclase.
Chemical rock analysis confirm that the lithology are intermediate – acid magmas, calcalkaline,
medium – high K, metalluminous, subduction-related (orogen) at active
continental margin. Granitoid at JSB-4 and JSB-6 shows magnetite series and I type.
This Mesozoic granitoid probably as extension from the Thailand and Burma granite
province, that underline the fact that there has been a history of subduction-related
magmatism along Southwestern edge of Sundaland since earliest Mesozoic times.
Hydrothermal alteration occurred in JSB-3, JSB-4 and JSB-6 has weakly – strongly
intensity. Microscopically observation indicates that alteration mostly through
replacement process of primary minerals followed by filling of secondary minerals
through pore and fracture. The type of alteration is outer/sub propylitic – phyllic and
based on its episode, there are two mineral alteration assemblage, there are formation of
mineral assemblage of chlorite – illite – calcite in the first episode and formation of
mineral assemblage of sericite ± quartz in the second episode.
Secondary porosity resulted as dissolution process in rock forming minerals especially
secondary minerals and porosity also resulted in the empty fracture or associate with the
filled fracture partly. Generally, alteration intensity has influent to the secondary
porosity of the dissolution process, where the increasing alteration intensity which is
replace primary minerals cause the increasing of secondary porosity. Beside that, the
type of alteration also has influent to the secondary porosity of the dissolution process.
Rocks fracturing in the study area formed at least in three different events. Fracture
porosity dominantly resulted in the empty fractures that formed in the last event (third),
otherwise at the previous events this fracture filled by the secondary minerals such as
carbonates (calcite and dolomite), sericite, quartz, chlorite and opaq minerals. |
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