Reducing the risk of low saturation gas using controlled-source electromagnetic (CSEM) in K-Field, Central Luconia: a forward modeling case study
The application of controlled-source electromagnetic (CSEM) in hydrocarbon exploration significantly facilitates the detection of economic hydrocarbon. The method captures anomalies through the resistivity contrast between the overburdens and hydrocarbon-bearing lithologies. In most cases, the resis...
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Institute of Physics
2022
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my.utp.eprints.337012022-09-12T04:24:15Z Reducing the risk of low saturation gas using controlled-source electromagnetic (CSEM) in K-Field, Central Luconia: a forward modeling case study Salleh, N.F. Hermana, M. Mohd Hassan, N.N.A.A.N. The application of controlled-source electromagnetic (CSEM) in hydrocarbon exploration significantly facilitates the detection of economic hydrocarbon. The method captures anomalies through the resistivity contrast between the overburdens and hydrocarbon-bearing lithologies. In most cases, the resistivity contrast is only prominent when there is sufficient hydrocarbon saturation. K-Field is situated on the continental shelf of Sarawak Basin, a sub-mature area for oil and gas in the Central Luconia province. Despite the low saturation of the gas in the Cycle VI sand, the seismic data shows a strong amplitude in the shallow section. Therefore, this study is conducted to assess the change of resistivity and CSEM response to the gas saturation and thickness variations of thin-gas sand in the K-Field. 3D resistivity models and three exploration wells are provided and two main methods are implemented in this study comprising the resistivity and CSEM forward modelings. The resistivity modeling is conducted using the Indonesia water saturation equation for different gas saturation scenarios and subsequently, the modeled resistivity is inputted in 1D and 2.5D CSEM forward modeling. The modeled CSEM response analysis is done by normalizing the modeled CSEM amplitude to the background or also known as normalized amplitude response (NAR). In gas saturation variation, the modeled resistivity showed an insignificant resistivity increase from 0.45�m to 0.55�m from wet case to 5 of gas and strongly increases to 35�m at 90 of gas saturation. The 1D CSEM NAR shows a very weak response of less than a 3 increase for 5 of gas and up to 230 increase for 90 of gas. In gas thickness variation, the CSEM NAR is weak and less than a 15 cutoff for all the tested thicknesses for 5 and 45 of in-situ gas. At 70 of gas, 25m is the minimum detected gas thickness with a 17.5 response increase, and at 90 of gas, the response is already strong at a minimum 5m thickness with a 35 increase. The modeled 2D CSEM responses also show that only 70 and 90 of gas sand layers in the K-field were delineated distinctively by the inline receivers with a 40 and 200 response increase respectively. © Published under licence by IOP Publishing Ltd. Institute of Physics 2022 ["eprint_typename_conference\_item" not defined] NonPeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-85129876245&doi=10.1088%2f1755-1315%2f1003%2f1%2f012045&partnerID=40&md5=fcc8de82de3696127fe49d9cd759b9d2 Salleh, N.F. and Hermana, M. and Mohd Hassan, N.N.A.A.N. (2022) Reducing the risk of low saturation gas using controlled-source electromagnetic (CSEM) in K-Field, Central Luconia: a forward modeling case study. [["eprint_typename_conference\_item" not defined]] http://eprints.utp.edu.my/33701/ |
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The application of controlled-source electromagnetic (CSEM) in hydrocarbon exploration significantly facilitates the detection of economic hydrocarbon. The method captures anomalies through the resistivity contrast between the overburdens and hydrocarbon-bearing lithologies. In most cases, the resistivity contrast is only prominent when there is sufficient hydrocarbon saturation. K-Field is situated on the continental shelf of Sarawak Basin, a sub-mature area for oil and gas in the Central Luconia province. Despite the low saturation of the gas in the Cycle VI sand, the seismic data shows a strong amplitude in the shallow section. Therefore, this study is conducted to assess the change of resistivity and CSEM response to the gas saturation and thickness variations of thin-gas sand in the K-Field. 3D resistivity models and three exploration wells are provided and two main methods are implemented in this study comprising the resistivity and CSEM forward modelings. The resistivity modeling is conducted using the Indonesia water saturation equation for different gas saturation scenarios and subsequently, the modeled resistivity is inputted in 1D and 2.5D CSEM forward modeling. The modeled CSEM response analysis is done by normalizing the modeled CSEM amplitude to the background or also known as normalized amplitude response (NAR). In gas saturation variation, the modeled resistivity showed an insignificant resistivity increase from 0.45�m to 0.55�m from wet case to 5 of gas and strongly increases to 35�m at 90 of gas saturation. The 1D CSEM NAR shows a very weak response of less than a 3 increase for 5 of gas and up to 230 increase for 90 of gas. In gas thickness variation, the CSEM NAR is weak and less than a 15 cutoff for all the tested thicknesses for 5 and 45 of in-situ gas. At 70 of gas, 25m is the minimum detected gas thickness with a 17.5 response increase, and at 90 of gas, the response is already strong at a minimum 5m thickness with a 35 increase. The modeled 2D CSEM responses also show that only 70 and 90 of gas sand layers in the K-field were delineated distinctively by the inline receivers with a 40 and 200 response increase respectively. © Published under licence by IOP Publishing Ltd. |
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["eprint_typename_conference\_item" not defined] |
| author |
Salleh, N.F. Hermana, M. Mohd Hassan, N.N.A.A.N. |
| spellingShingle |
Salleh, N.F. Hermana, M. Mohd Hassan, N.N.A.A.N. Reducing the risk of low saturation gas using controlled-source electromagnetic (CSEM) in K-Field, Central Luconia: a forward modeling case study |
| author_facet |
Salleh, N.F. Hermana, M. Mohd Hassan, N.N.A.A.N. |
| author_sort |
Salleh, N.F. |
| title |
Reducing the risk of low saturation gas using controlled-source electromagnetic (CSEM) in K-Field, Central Luconia: a forward modeling case study |
| title_short |
Reducing the risk of low saturation gas using controlled-source electromagnetic (CSEM) in K-Field, Central Luconia: a forward modeling case study |
| title_full |
Reducing the risk of low saturation gas using controlled-source electromagnetic (CSEM) in K-Field, Central Luconia: a forward modeling case study |
| title_fullStr |
Reducing the risk of low saturation gas using controlled-source electromagnetic (CSEM) in K-Field, Central Luconia: a forward modeling case study |
| title_full_unstemmed |
Reducing the risk of low saturation gas using controlled-source electromagnetic (CSEM) in K-Field, Central Luconia: a forward modeling case study |
| title_sort |
reducing the risk of low saturation gas using controlled-source electromagnetic (csem) in k-field, central luconia: a forward modeling case study |
| publisher |
Institute of Physics |
| publishDate |
2022 |
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https://www.scopus.com/inward/record.uri?eid=2-s2.0-85129876245&doi=10.1088%2f1755-1315%2f1003%2f1%2f012045&partnerID=40&md5=fcc8de82de3696127fe49d9cd759b9d2 http://eprints.utp.edu.my/33701/ |
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