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Ditemukan 4 dokumen yang sesuai dengan query
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Siagian, Hendra Benny
Abstrak :
Formasi X merupakan target utama di Lapangan Marlin, yang merupakan lapangan gas, berlokasi di Viosca Knoll, lepas pantai Louisiana, Gulf of Mexico. Reservoar yang utama adalah lapisan batupasir tebal, berumur Miosen Tengah, memiliki ciri amalgamated sheet, seperti endapan turbidit pada intraslope basin. Untuk karakterisasi properti batuan di lapangan ini, apabila hanya dengan mengaplikasikan analisis AVO dan impedansi akustik (P-impedansi) saja akan memberikan ketidakpastian yang besar pada hasilnya. Oleh karena itu, Elastic Impedance (EI) dan Simultaneous Inversion diaplikasikan pada interval formasi X ini. Aplikasi metoda inversi EI digunakan untuk memprediksi zona batupasir yang mengandung gas, dengan menggunakan sumur UI-1 dan UI-3 sebagai referensi untuk memprediksi properti reservoir di sumur UI-2, dilanjutkan dengan menganalisis penyebarannya dengan menggunakan partial post stack 3D seismic data. Metoda simultaneous inversion juga telah diaplikasikan sebagai metoda alternatif untuk memprediksi pore gas (Lambda-Rho) dan distribusi porositas, dengan menggunakan partial pre stack 3D seismic data yang diinversi secara simultan; dan dengan menggunakan sumur UI-1 dan UI-3 sebagai referensi untuk memprediksi properti reservoar di sumur UI-2 pada Lapangan Marlin. Kedua metoda tersebut memberikan hasil yang saling mendukung satu sama lainnya. EI dapat memprediksi wet zone pada sumur UI-2 seperti juga halnya simultaneous inversion. Kombinasi hasil kedua metoda tersebut akan mendapatkan perpotongan zona lapisan batupasir, maka zona dengan tingkat kepastian tertinggi atau yang paling mungkin memiliki reservoir batupasir gas dapat dipetakan. Porositas and prediksi pore gas diperkirakan sebesar 20 sampai 30 persen dan 5 sampai 15 GPa*g/cc di dalam lapangan tersebut. Dari hasil studi ini, dapat disimpulkan bahwa kedua metode ini dapat digunakan sebagai alternatif untuk memprediksi karakter reservoar formasi X di lapangan Marlin dan lapangan lainnya yang memiliki kondisi geologi yang mirip untuk mengurangi ketidakpastian dalam eksplorasi hidrokarbon. ......X formation is the main target of Marlin field, a gas field, situated in Viosca Knoll area, offshore Louisiana, Gulf of Mexico. Main reservoir sands are thick, middle Miocene amalgamated sheet-like turbidite sands deposited in an intraslope basin. The use of AVO analysis and acoustic impedance (P-impedance) only to characterize rock properties in this field will lead us into large uncertainty. Therefore, to overcome that issue, elastic impedance (EI) inversion and simultaneous inversion are introduced and applied within X formation interval. EI inversion is applied to predict gas sand area, using well UI-1 and UI-3 as the reference to predict reservoir properties in UI-2 well, then delineate the area using partial post stack 3D seismic data. Simultaneous inversion is also applied as an alternative method to predict the pore gas (Lambda-Rho) and porosity distribution, using partial pre stack 3D seismic data which are inverted simultaneously; then UI-1 and UI-3 well data which will be used as a reference well for predicting reservoir properties in UI-2 at Marlin field. The results from both methods are supported each other. EI inversion result can predict wet zone in well UI-2 as well as simultaneous inversion result. By combining the two methods and drawing the intersection of the good gas sandstone reservoir from both methods, the maximum confident or the most likely of gas sandstone reservoir area can be delineated. Porosity and pore gas prediction suggested around 20 to 30 percent and 5 to 15 GPa*g/cc respectively, throughout the field. Hence, this combined method could be used as an alternative to predict X reservoir properties in Marlin field or could be applied to other fields with similar geological condition to reduce exploration uncertainty.
Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2013
T31342
UI - Tesis Membership  Universitas Indonesia Library
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Ivana Debora
Abstrak :
Inversi Extended Elastic Impedance (EEI) merupakan teknik inversi seismik yang secara optimal dapat memprediksi karakter dan keberadaan reservoar hidrokarbon dengan perluasan sudat datang gelombang dari -90° hingga 90°. Pada penelitian Lapangan ?Q? Sub-Cekungan Jambi, inversi EEI mampu mengkarakterisasi reservoar batupasir dan memprediksi keberadaan gas maupun minyak melalui parameter Vp/Vs ratio, lambda-rho dan mu-rho. Dalam inversi EEI dilakukan korelasi untuk mencari nilai korelasi maksimum pada sudut chi (χ) tertentu dari setiap parameter dengan melakukan korelasi antara log EEI dengan log target. Nilai sudut chi (χ) optimum atau best-chi agle ini kemudian digunakan untuk membuat volume scaled reflectivity yang dipakai dalam pembuatan model awal dan juga inversi. Proses inversi dilakukan dengan menggunakan inversi post-stack model based yang baik digunakan pada reservoar lapisan tipis. Hasil inversi selanjutnya digunakan untuk mengetahui penyebaran reservoar dimana hasilnya menunjukkan adanya kemungkinan resevoar yang mengandung gas dan minyak. Pada penelitian, nilai Vp/Vs ratio berkisar antara 16-18, nilai mu-rho berkisar antara 25-35 (GPa*(g/cc)) dan lambda-rho untuk gas berkisar antara 20-22 (GPa*(g/cc)) dan lambda-rho untuk minyak berkisar 25-27 (GPa*(g/cc)). ......Extended Elastic Impedance (EEI) inversion method is a seismic inversion technique that optimally can predict the character and the presence of hydrocarbon reservoir with the expansion of the angle?s coming wave from -90 ° to 90 °. In the field of research 'Q' Sub-Basin Jambi, EEI is able to characterize sandstones reservoir and predict the existence of gas or oil through the parameter of Vp / Vs ratio, lambda-rho and mu-rho. EEI is performed in correlation to seek the maximum correlation value at an optimum chi (χ) angle of each parameter specified by the correlation between the targets? logs with the EEI?s logs. Optimum chi (χ) angle or a best-chi angle is then used to create a scaled volume reflectivity that is used in making the initial model and also in inversion process. Inversion is done using post-stack inversion based model which is best used on thin reservoir layer. Inversion results are then used to determine the spread of the reservoir where the results indicate the possibility resevoar containing gas and oil. In the study, the value of Vp / Vs ratio ranged between 16-18, the mu-rho values ​​ranged between 25-35 (GPa * (g / cc)), the lambda-rho values for gas ranged between 20-22 (GPa * (g / cc)) and for oil ranged between 25-27 (GPa * (g / cc)).
Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2016
S63452
UI - Skripsi Membership  Universitas Indonesia Library
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Andrian Danurwenda
Abstrak :
[ABSTRAK
Lapangan AAA merupakan lapangan gas yang terdapat pada lingkungan Delta Mahakam, Cekungan Kutai, Kalimantan Timur. Lapangan AAA merupakan bagian dari lapangan gas dengan produksi terbesar di Indonesia yang telah dieksplorasi dan diproduksi lebih dari 40 tahun. Salah satu tahapan penting setelah proses eksplorasi adalah mengaplikasikan metode karakterisasi reservoar untuk pengembangan lapangan. Karakterisasi reservoar dalam penentuan distribusi lithologi dan fluida sangat penting dilakukan untuk mengetahui daerah berprospek ekonomis yang belum ditembus oleh sumur produksi. Pada penelitian ini karakterisasi reservoar yang digunakan adalah metode Analisa AVO dan Extended Elastic Impedance (EEI). Analisis AVO mengunakan data prestack 3D gather dan bantuan velocity cube. Data DTS yang digunakan pada penelitian ini terdapat pada sumur 3A45, 3A50, dan 3A45. Metode Extended Elastic Impedance (EEI) dimulai dengan penentuan sudut Chi (X) pada nilai koeffisien korelasi yang maksimum (mendekati nilai 1) dan analisis crossplot untuk menentukan nilai cut-off indikator lithologi dan indikator fluida pada setiap parameter fisika dari data sumur. Hasil analisis menyebutkan bahwa fluida pada daerah penelitian merupakan AVO kelas III. Indikator lihtologi (reservoar dan non reservoar) dapat dipisahkan dengan parameter Gamma Ray (reservoar bernilai 20 – 60 GAPI) dan Density (reservoar bernilai 1.75 – 2.17 g/cc). Sedangkan indikator fluida (gas dan water) dapat dipisahkan dengan parameter Lambda-Rho (gas bernilai 1.5 – 9 Gpa*g/cc), Lambda per Mu (gas bernilai 0.5 – 2.5), Vp per Vs (gas bernilai 1.5 – 2.2), dan Poisson Ratio (gas bernilai 0.16 – 0.35). Hasil inversi Extended Elastic Impedance (EEI) pada GTS 3A menyebutkan bahwa inversi Lambda-Rho mempunyai akurasi 78.57% (MFA) dan 85.71% (MFB), inversi Lambda per Mu mempunyai akurasi 50% (MFA) dan 85.71% (MFB), inversi Vp per Vs mempunyai akurasi 71.42% (MFA) dan 71.42% (MFB), Inversi Poisson Ratio mempunyai akurasi sebesar 71.42% (MFA) dan 78.57% (MFB).
ABSTRACT
AAA field is a gas field that located in Delta Mahakam environment, Kutei Basin, East Kalimantan. AAA field is a part of giant gas field which has biggest production in Indonesia already explored and produced almost over 40 years. One of important steps after exploration of the field is to conduct a reservoir characterization for field development. Reservoir characterization to determine lithology distribution and fluid content is very important to know the prospect area which has economical values and not penetrated yet by infill wells or production wells. Reservoir characterization method that has been used in this study are AVO analysis and Extended Elastic Impedance (EEI). Pre-stack 3D gather data and velocity cube used for AVO analysis in this study. DTS logs only available in 3A45, 3A50, and 3A55. Extended Elastic Impedance method started with determination of Chi (X) angle that has maximum correlation coefficient (near to 1 value) and cross-plot analysis to determine cut-off value for lithology indicator and fluid indicator in each well data parameter. Analysis results show that fluid class in this study is AVO class III. Lithology indicator (reservoir and non reservoir) can be separated by Gamma Ray (value of reservoir between 20 – 60 GAPI) and Density (value of reservoir is between 1.75 – 2.17 g/cc). Fluid indicator (gas and water) can be separated by Lambda-Rho (value of gas is between 1.5 – 9 Gpa*g/cc), Lambda per Mu (value of gas is between 0.5 – 2.5), Vp per Vs (value of gas is between 1.5 – 2.2), and Poisson Ratio (value of gas is between 0.16 – 0.35). Results of Extended Elastic Impedance inversion in GTS 3A show that Lambda-Rho inversion has 78.57% accuracy (in MFA) and 85.71% accuracy (in MFB), Lambda per Mu inversion has 50% accuracy (in MFA) and 85.71% accuracy (in MFB), Vp per Vs inversion has 71.42% accuracy (in MFA) and 71.42% (in MFB), Poisson Ration has 71.42% accuracy (in MFA) and 78.57% accuracy (in MFB).;AAA field is a gas field that located in Delta Mahakam environment, Kutei Basin, East Kalimantan. AAA field is a part of giant gas field which has biggest production in Indonesia already explored and produced almost over 40 years. One of important steps after exploration of the field is to conduct a reservoir characterization for field development. Reservoir characterization to determine lithology distribution and fluid content is very important to know the prospect area which has economical values and not penetrated yet by infill wells or production wells. Reservoir characterization method that has been used in this study are AVO analysis and Extended Elastic Impedance (EEI). Pre-stack 3D gather data and velocity cube used for AVO analysis in this study. DTS logs only available in 3A45, 3A50, and 3A55. Extended Elastic Impedance method started with determination of Chi (X) angle that has maximum correlation coefficient (near to 1 value) and cross-plot analysis to determine cut-off value for lithology indicator and fluid indicator in each well data parameter. Analysis results show that fluid class in this study is AVO class III. Lithology indicator (reservoir and non reservoir) can be separated by Gamma Ray (value of reservoir between 20 – 60 GAPI) and Density (value of reservoir is between 1.75 – 2.17 g/cc). Fluid indicator (gas and water) can be separated by Lambda-Rho (value of gas is between 1.5 – 9 Gpa*g/cc), Lambda per Mu (value of gas is between 0.5 – 2.5), Vp per Vs (value of gas is between 1.5 – 2.2), and Poisson Ratio (value of gas is between 0.16 – 0.35). Results of Extended Elastic Impedance inversion in GTS 3A show that Lambda-Rho inversion has 78.57% accuracy (in MFA) and 85.71% accuracy (in MFB), Lambda per Mu inversion has 50% accuracy (in MFA) and 85.71% accuracy (in MFB), Vp per Vs inversion has 71.42% accuracy (in MFA) and 71.42% (in MFB), Poisson Ration has 71.42% accuracy (in MFA) and 78.57% accuracy (in MFB)., AAA field is a gas field that located in Delta Mahakam environment, Kutei Basin, East Kalimantan. AAA field is a part of giant gas field which has biggest production in Indonesia already explored and produced almost over 40 years. One of important steps after exploration of the field is to conduct a reservoir characterization for field development. Reservoir characterization to determine lithology distribution and fluid content is very important to know the prospect area which has economical values and not penetrated yet by infill wells or production wells. Reservoir characterization method that has been used in this study are AVO analysis and Extended Elastic Impedance (EEI). Pre-stack 3D gather data and velocity cube used for AVO analysis in this study. DTS logs only available in 3A45, 3A50, and 3A55. Extended Elastic Impedance method started with determination of Chi (X) angle that has maximum correlation coefficient (near to 1 value) and cross-plot analysis to determine cut-off value for lithology indicator and fluid indicator in each well data parameter. Analysis results show that fluid class in this study is AVO class III. Lithology indicator (reservoir and non reservoir) can be separated by Gamma Ray (value of reservoir between 20 – 60 GAPI) and Density (value of reservoir is between 1.75 – 2.17 g/cc). Fluid indicator (gas and water) can be separated by Lambda-Rho (value of gas is between 1.5 – 9 Gpa*g/cc), Lambda per Mu (value of gas is between 0.5 – 2.5), Vp per Vs (value of gas is between 1.5 – 2.2), and Poisson Ratio (value of gas is between 0.16 – 0.35). Results of Extended Elastic Impedance inversion in GTS 3A show that Lambda-Rho inversion has 78.57% accuracy (in MFA) and 85.71% accuracy (in MFB), Lambda per Mu inversion has 50% accuracy (in MFA) and 85.71% accuracy (in MFB), Vp per Vs inversion has 71.42% accuracy (in MFA) and 71.42% (in MFB), Poisson Ration has 71.42% accuracy (in MFA) and 78.57% accuracy (in MFB).]
2015
T44662
UI - Tesis Membership  Universitas Indonesia Library
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Ade Denny Hermawan
Abstrak :
Analisa AVO dan teknik inversi saat ini masih menjadi metoda yang cukup ampuh untuk mengkarakerisasi reservoar hidrokarbon. Salah satu teknik inversi yang cukup banyak dilakukan saat ini adalah inversi simultan. Pada studi ini, kedua metoda, baik analisa AVO maupun inversi simultan digunakan pada data seismik pre-stack CDP Gather lapangan Penobscot, Nova Scotia, Kanada. Tujuannya adalah untuk mengidetifikasi litologi dan jenis fluida pada reservoar Penobscot. Berdasarkan hasil analisa AVO, terlihat adanya anomali AVO kelas III pada TWT 2000 ms dan kehadiran gas pada zona tersebut. Begitupun dengan Analisa hasil inversi simultan yang berupa impedansi P, impedansi S, densitas, dan Lambda Mu Rho yang memberikan informasi keberadaan lapisan pasir yang di duga sebagai reservoar Penobscot yang diduga berisi cadangan hidrokarbon berupa gas. Lambda-Rho pada zona tersebut bernilai rendah, yaitu sekitar 22,7 Gpa*g/cc, yang menunjukkan keberadaan gas pada zona tersebut. Tetapi nilai Mu-Rho pada zona tersebut justru bernilai kecil yaitu berkisar 17,1 Gpa*g/cc, sehingga sulit untuk diidentifikasi sebagai lapisan pasir, sehingga kemungkinan adalah lapisan tersebut adalah lapisan tight sand. Berdasarkan laporan dari Nova Scotia Offshore Petroleum, perusahaan setempat, pengeboran yang dilakukan pada salah satu sumur, L-30, reservoir Penobscot berisi condensate. Namun condesate dan gas jika dilihat dari data sumur maupun data seismik, akan memiliki karakteristik yang sama. Perbedaannya akan terlihat ketika dilakukan pengeboran. ......Nowadays, AVO Analysis and inversion technique are still be very usefull methods for characterize hydrocarbon reservoar. Simultaneous inversion is one of inversion technique that often to be used currently. In this study, both of method, AVO analysis and simultaneous inversion were used on pre-stack CDP gather of Penobscot Field, Canada. The goals are to identify lithology and fluid content of the reservoir. Based on the result of AVO analysis, there is Class III AVO anomaly on TWT 2000 ms and the existence of gas on that zone. Simultaneous inversion resulted P impedance, S, impedance, density, and Lambda Mu Rho. Those rock properties informed the existence of sand layer that be predicted as Penobscot reservoir with gas as the content. Lambda-Rho on that zone is relatively low, it's about 22,7 Gpa*g/cc. It shown the existance of gas. But Mu-Rho on that zone is also relatively low, it;s about 17,1 Gpa*g/cc. It's difficult to identify that the zone is sand layer, because the Mu-Rho is low. So that, the zone was be identify as tight sand. Based on the report of Nova Scotia Offshore Petroleum, the drilling was be done on L-30, and the content of the reservoir is condensate. Condensate and gas have same characteristic on seismic and well data. The difference of them will be found by drilling.
Depok: Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia, 2011
S1108
UI - Skripsi Open  Universitas Indonesia Library