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Diagenesis and Depositional Control in LKU (K, L and M) Formation: A Study to Support Waterflood Activities in Sirikit Oil Field, Thailand. |
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| รหัสดีโอไอ | |
| Creator | Kriangkrai Varejaroenchai |
| Title | Diagenesis and Depositional Control in LKU (K, L and M) Formation: A Study to Support Waterflood Activities in Sirikit Oil Field, Thailand. |
| Contributor | - |
| Publisher | Department of Geology, Chulalongkorn University |
| Publication Year | 2561 |
| Journal Title | Bulletin of Earth Sciences of Thailand (BEST) |
| Journal Vol. | 10 |
| Journal No. | 2 |
| Page no. | 109-119 |
| Keyword | Miocene Sandstone, Water flooding, Fluvio-deltaic lacustrine setting, diagenetic components, Meteoric water, Bacterial aerobic oxidation |
| URL Website | https://www.bestjournal.org/ |
| Website title | Bulletin of Earth Sciences of Thailand |
| ISSN | 1906-280X |
| Abstract | This study focuses on the eastern part of central fault block of the Sirikit Oil Field in the Phitsanulok basin, onshore Thailand. Since 2008 the field has produced mainly crude oil from the early Miocene LKU-K, LKU-L and LKU-M reservoirs which are all deposited in a fluvio-deltaic lacustrine setting. As oil production was starting to decrease, water flood activities were implemented in 2014. However, the results of the water flood revealed that the production performance by water flooding was below expectations. Hence, a number of studies have been undertaken in order to improve the water flood performance. This study is one of them and is focused on the geological factors controlling reservoir performance, especially diagenetic/depositional controls on permeability connections and whether there is pore throat occlusion due to the presence of expansive clays. Until now, the importance of these various factors has not been quantified. The research quantifies these aspects using core from selected intervals and applying petrographic, stable isotope, X-ray powder diffraction (XRD), and glycolation intensity techniques. The latter showed a lack of expansive clays in the studied sediments. Stable isotope values of siderites and ferroan calcites cements illustrates that LKU-K and L reservoir possess more negative ?18O values than the expected equilibrium compositions of primary calcite-saturated lacustrine waters. The negative shift indicates that the calcite cement which has partially replaced primary aragonite shells was precipitated in an early diagenetic freshwater/meteoric shallow burial environment. The presence of partial preserved aragonitic gastropod Bellamya sp. in the studied cores provides the evidence of a primary freshwater lacustrine setting in the hosting sediments. In contrast to the LKU-K and LKU-L meteoric cement signatures, carbonate cements in the upper LKU-M reservoirs shows more negative ?13C values indicative of active bacterial aerobic oxidation contributing carbon to bicarbonate in the shallow burial environment. The bicarbonate was formed as an early diagenetic carbonate cement in muddy organic-rich sediment of the LKU-M. In combination these observations indicate that the sands are not connected to an active fluid flow system; otherwise, all the aragonite would be replaced by calcite. In conclusion, the studied core intervals shows evidence of poor connection to a current actively-circulating pore water system. This lack of ongoing connection across many of the thinner sands may help to explain the poor recovery efficiencies in some parts of the field |
