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Cekungan Ardjuna merupakan cekungan hidrokarbon busur belakang yang sudah matang. Cekungan tersebut mampu berproduksi dan menyimpan resources migas yang belum dapat terpetakan dengan baik. Oleh karena itu perlu dilakukan kajian dari integrasi metode sikuen stratigrafi, inversi seismik, dan evaluasi petrofisika untuk memprediksi potensi hidrokarbon secara lebih rinci dan lebih akurat. Integrasi ini mampu menghasilkan informasi pada struktur contingent mulai dari Play konsep, sistem petroleum, dan property dari karakteristik reservoir, hingga pemetaan kawasan prospect serta evaluasi resiko temuan eksplorasi. Pemahaman karakteristik internal seismik membantu penarikan marker sikuen seismik stratigrafi dalam penampang seismik. Inversi seismik dapat membantu dalam determinasi penyebaran lithofasies, porositas, fluida di penampang seismik. Peta distribusi inversi seismik overlay dengan peta struktur kedalaman reservoir memberikan parameter luasan perangkap untuk reservoir target yang berada pada sistem pengendapan pasang surut. Evaluasi petrofisika dapat membantu memberikan property porositas, netpay thickness, saturasi fluida air, minyak dan gas. Sumberdaya contingent resources ditemukan pada zona target sebesar 5,92 MMBOE (P10 OOIP) dan 10,56 BCF (P10 OGIP). Sumberdaya Prospective Resources sebesar 12,25 MMBOE (P10 OOIP) dan 22.12 BCF (P10 OGIP).

 

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The Ardjuna Basin is a mature back arc hydrocarbon basin. The basin is capable of producing and storing oil and gas resources that cannot be properly mapped. Therefore it is necessary to do a study of the integration of the stratigraphic sequence method, seismic inversion, and petrophysical evaluation to predict hydrocarbon potential in more detail and more accurately. This integration is able to produce information on contingent structures ranging from Play concepts, petroleum systems, and properties from reservoir characteristics, to prospect area mapping and evaluation of risk of exploration findings. Understanding of seismic internal characteristics helps draw stratigraphic sequential seismic markers in seismic cross sections. Seismic inversions can help in the determination of the spread of lithofasies, porosity, fluid in seismic sections. The overlay seismic inversion distribution map with a map of reservoir depth structure provides trapping area parameters for the target reservoir located in the tidal deposition system. Petrophysical evaluation can help provide porosity properties, netpay thickness, water, oil and gas fluid saturation. Contingent resources were found in the target zone of 5,92 MMBOE (P10 OOIP) and 10,56 BCF (P10 OGIP). Prospective Resources are 12,25 MMBOE (P10 OOIP) and 22,12 BCF (P10 OGIP).

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"Lapangan 'X' adalah salah satu lapangan penghasil minyak di Cekungan Sumatera Tengah. Cekungan Sumatera Tengah merupakan salah satu cekungan sedimen penghasil minyak terbesar di Indonesia. Lapangan 'X' adalah area dengan Formasi Bekasap onlaping ke Tinggian Basement. Fitur onlapping berpotensi untuk perangkap stratigrafi. Penelitian ini bertujuan untuk mengidentifikasi potensi perangkap stratigrafi, distribusi reservoir batu pasir, tipe fasies, dan lingkungan pengendapan. Data yang digunakan dalam penelitian ini adalah data seismik 3D, log sumur, dan data inti batuan. Metode penelitian yang digunakan adalah analisis elektrofasies berdasarkan log sumur, atribut seismik, dan model geologi konseptual. Hasil penelitian menunjukkan bahwa ada potensi perangkap stratigrafi dalam bentuk perangkap intra-formasi dan regional. Jebakan intra-formasi dibentuk oleh perselingan batupasir dan litologi serpih secara vertikal dan perubahan fasies lateral, sedangkan jebakan regional dibentuk oleh lapisan serpih Formasi Telisa dan Formasi Bekasap dengan onlap di Tinggian Basement. Berdasarkan inversi AI, dekomposisi spektral 20 Hz, atribut envelope, dan atribut rms amplitudo  menunjukkan distribusi reservoir batupasir A Formasi Bekasap berarah Timurlaut - Baratdaya pada zona onlapping ke Tinggian Basement. Berdasarkan integrasi analisis data batuan inti, elektrofasies, inversi AI, dekomposisi spektral 20 Hz, dan atribut rms amplitudo lingkungan pengendapan reservoir diinterpretasikan sebagai wave dominated delta yang terdiri dari empat fasies: upper shoreface, lower shoreface, distributary channel, dan offshore.

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The 'X' field is an oil-producing field in the Central Sumatera Basin. Central Sumatera Basin is one of the largest oil-producing sedimentary basin in Indonesia. The field is an area in the form of onlaping Bekasap Formation to the Basement High. The onlapping feature has potential for stratigraphic traps. This study aims to identify the potential stratigraphic traps, the distribution of sandstone reservoirs, facies types and the depositional environments. The data used in the study are 3D seismic data, well log, and core data. The research methods used including the analysis of electrofacies based on well log, seismic attributes, and conceptual geology model. The research shows that there is a stratigraphic trap in the form of intra-formation and regional traps. Intra-formation traps were formed vertically by the intersection of sandstone and shale lithologies and lateral facies changes, whereas the regional traps are formed by the shale layer of Telisa Formation and Bekasap Formation with onlapping on the Basement High. Based on AI inversion, spectral-decomposition 20 Hz, envelope, and rms amplitude attributes show the distribution sandstone reservoir A of Bekasap Formation is Northeast - Southwest on onlaping zone to the Basement High. Based on integrated of core data, electrofacies, AI inversion, spectral-decomposition 20 Hz and rms amplitude attributes, the depositional environment of reservoir is interpretated as wave dominated delta which is of four facies: upper shoreface, lower shoreface, distributary channel, and offshore facies."

"[ABSTRAKLapangan Athar mulai berproduksi sejak tahun 1975 dengan produksi kumulatif mencapai 900 MMbbls dan RF 50%. Pada tahun 2011 dilakukan akuisisi seismik 3D untuk melihat remaining potential yang ada di lapangan ini. Analisa seismik 3D dengan atribut seismik dan inversi simultan memberikan hasil yang cukup baik untuk menentukan penyebaran batupasir dan hidrokarbon yang ada di dalam nya. Volume densitas hasil inversi, atribut minimum amplitude, dan atribut arc length membantu dalam mengidentifikasi penyebaran reservoar. Lambda-Rho dan AI membantu dalam mengidentifikasi area-area yang mengandung hidrokarbon. Interpretasi struktur di seismik menunjukkan adanya sesar minor, yang sebelumnya tidak teridentifikasi pada seismik 2D. Hasil analisa seismik digunakan dalam pembuatan 3D geomodel. Penentuan batas channel, dan area hidrokarbon di dipandu hasil dari analisa seismik dan data sumur. Empat tubuh channel teridentifikasi dari analisis tersebut, sementara overbank deposit disebarkan secara statistik. Data interpreasi struktur digunakan untuk menentukan jumlah segmen atau kompartemen, dan hasilnya adalah lima segmen selatan dan satu segmen utara terdapat di zona dangkal Lapangan Athar. Hasil pemodelan geologi menunjukkan bahwa segmen 5 menjadi area yang masih memiliki prosepek untuk produksi minyak, sementara segmen 2 memiliki prospek untuk produksi gas.

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ABSTRACTAthar Field start producing since 1975 up to now with cummulative production reached 900 MMbbls and RF 50%. 3D seismic was acquired in 2011 to identify the remaining potential in this field. Analysis of 3D seismic with attribute and simultaneous inversion provide a good result to determine reservoar distribution and hydrocarbon contained. Density cube from inversion, minimum amplutide attribute, anda arc length attribute are used to map the sand distribution. Lambda Rho and AI (Ip) are usefull to identify the remaining hyrocarbon area. Structural interpretation from seismic shows there are minor faults which is not identified before with 2D seismic. The result of the analysis was used to create 3D Geomodel. The channel limit determination, and remaining hydrocarbon area guided by analysis from seismic and well data. As a result, four channel bodies were identified, whilst overbank deposit distributed statistically. Structural interpretation data used to determine the number of segment or compartment, and the result are five segments in the south and one segment in the north identified in the shallow zone Athar Field. The result of geological modeling shows that segment 5 still has prospect in oil production, whilst segment 2 has prospect in gas production.;Athar Field start producing since 1975 up to now with cummulativeproduction reached 900 MMbbls and RF 50%. 3D seismic was acquired in 2011 toidentify the remaining potential in this field.Analysis of 3D seismic with attribute and simultaneous inversion provide agood result to determine reservoar distribution and hydrocarbon contained. Densitycube from inversion, minimum amplutide attribute, anda arc length attribute are usedto map the sand distribution. Lambda Rho and AI (Ip) are usefull to identify theremaining hyrocarbon area. Structural interpretation from seismic shows there areminor faults which is not identified before with 2D seismic.The result of the analysis was used to create 3D Geomodel. The channel limitdetermination, and remaining hydrocarbon area guided by analysis from seismic andwell data. As a result, four channel bodies were identified, whilst overbank depositdistributed statistically. Structural interpretation data used to determine the number ofsegment or compartment, and the result are five segments in the south and onesegment in the north identified in the shallow zone Athar Field.The result of geological modeling shows that segment 5 still has prospect inoil production, whilst segment 2 has prospec in gas production, Athar Field start producing since 1975 up to now with cummulativeproduction reached 900 MMbbls and RF 50%. 3D seismic was acquired in 2011 toidentify the remaining potential in this field.Analysis of 3D seismic with attribute and simultaneous inversion provide agood result to determine reservoar distribution and hydrocarbon contained. Densitycube from inversion, minimum amplutide attribute, anda arc length attribute are usedto map the sand distribution. Lambda Rho and AI (Ip) are usefull to identify theremaining hyrocarbon area. Structural interpretation from seismic shows there areminor faults which is not identified before with 2D seismic.The result of the analysis was used to create 3D Geomodel. The channel limitdetermination, and remaining hydrocarbon area guided by analysis from seismic andwell data. As a result, four channel bodies were identified, whilst overbank depositdistributed statistically. Structural interpretation data used to determine the number ofsegment or compartment, and the result are five segments in the south and onesegment in the north identified in the shallow zone Athar Field.The result of geological modeling shows that segment 5 still has prospect inoil production, whilst segment 2 has prospec in gas production]"

"Telah dilakukan kajian optimalisasi inversi seismik dengan memvariasikan jumlah picking horizon dan metode inversi yang digunakan untuk memetakan gambaran bawah permukaan yang berpotensi menjadi reservoar hidrokarbon di lapangan F3, Laut Utara, Belanda. Inversi seismik ini dikontrol oleh data sumur. Inversi seismik sangat ditentukan oleh penentuan picking horizon dan metode inversi yang digunakan. Untuk struktur litologi yang tidak kompleks (flat) cukup menggunakan dua horizon. Sedangkan untuk litologi yang kompleks seperti downlap dan onlap, picking horizon tidak cukup dua. Pada daerah lapangan F3 ini memiliki downlap dan bright spot, yang menyebabkan lapangan ini berpotensi sebagai reservoar hidrokarbon dan telah dilakukan pengujian penggunaan jumlah picking horizon untuk memetakan bawah permukaan di lapangan ini. Diperoleh hasil yang optimal dengan 3 horizon, adapun metode seismik inversi yang optimal untuk menyelesaikan downlap ini adalah model based daripada metode bandlimited dan sparse spike. Hasil horizon slice pada metode model based menunjukkan bahwa terdapat dua zona reservoar. Ketebalan reservoar pertama sekitar 40.08 m dengan luas sekitar 13,353,840 m2 dan reservoar kedua ketebalannya sekitar 26.4 m dengan luas sekitar 5,104,160 m2 .

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Study about optimization in seismic inversion by varying the number of horizon picking and inversion method has been conducted to delineate subsurface of prospective hidrocarbon reservoir zone at field F3, North Sea, Netherland. Seismic inversion was controlled by wells data. Seismic inversion is strongly determined by horizon picking and the method of the inversion itself. For less lithological structure (flat), 2 horizons are enough, meanwhile for complex lithological structure such as downlap and onlap, more horizons picking are needed. Downlap and bright spot structure were found in field F3 which made this area became prospectous and thus horizon picking determination was conducted to delineate the subsurface. The result shows that the optimum horizon is 3, and the optimum seismic inversion method is model based than bandlimited and sparse spike. The results of horizon slice models based method shows that there are two reservoir zones exist. The first zone is approximately 40.08 m thick which enclose 13,353,840 m2 areas, while the second zone is about 26.4 m thick with 5,104,160 m2 areas"

"Lapangan A merupakan lapangan offshore yang berada di Laut mid-Norway dan telah memproduksi minyak dan gas bumi cukup lama. Tiga buah sumur digunakan pada penelitian ini dengan kelengkapan data Gamma Ray, NPHI, RHOB, dan log Sonik. Untuk mengidentifikasi reservoir hidrokarbon digunakan metode seismik inversi untuk menghasilkan nilai impedansi akustik dan metode well log berupa gamma ray dan porositas guna menggambarkan penyebaran batu pasir pada reservoir hidrokarbon. Dalam proses inversi dibuat dua buah horison yaitu top dan bottom dengan kontrol tiga buah sumur.

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Field A is an offshore field, located in the mid-Norway Sea and has been producing oil and gas for a while. Three wells were used in this study that have Gamma Ray, NPHI, RHOB, and sonic logs. Seismic inversion method is used to identify the hydrocarbon reservoir then to deliver an acoustic impedance. Well log analysis such as gamma ray, porosity, and density are used to illustrate lithology of hydrocarbon reservoir. Inversion method created two horizons ,the top and bottom, with three wells controls."

"ABSTRAKGas hidrat secara alami terbentuk ketika molekul gas bebas terjebak di dalam kisi molekul air maka akan terbentuk padatan yang stabil yang bergantung pada suhu dan tekanan. Metode Bottom Simulating Reflector (BSR) dapat digunakan untuk melihat kenampakan kontras impedansi yang terjadi antara gas hidrat dengan keberadaan gas bebas yang berada di bawahnya. Karakteristik dari BSR yaitu amplitudo tinggi yang cukup kontras memotong struktur geologi serta dapat dilihat dari polaritas yang berbalik. Apabila dibawah BSR terdapat gas bebas, maka akan terjadi anomali kecepatan gelombang seismik dari tinggi ke rendah. Metode inversi Impedansi Akustik (AI) dengan metode model based dapat digunakan untuk menentukan nilai Impedansi Akustik serta kecepatan gas hidrat dan gas bebas dan menentukan keberadaan BSR di daerah Cekungan Bengkulu. Nilai p-wave BSR yang berkorelasi dengan gas hidrat berkisar antara 9000-10000 ft/s sedangkan nilai p-wave BSR yang berkorelasi dengan gas bebas berkisar antara 6500-7500 ft/s. Nilai Impedansi Akustik BSR yang berkorelasi dengan gas hidrat adalah antara 19.000-21.000 ft/s*g/cc, sedangkan nilai Impedansi Akustik BSR yang berkorelasi dengan gas bebas yang berada dibawahnya adalah antara 12000-14000 ft/s*g/cc. Dari hasil inversi model based, didapat bahwa BSR pada penelitian ini berada di Formasi Parigi dengan kedalaman BSR berkisar 1100-1300 meter di bawah dasar laut.

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ABSTRAKGas hydrate is naturally formed when free gas molecules trapped in a lattice of water molecules it will form a stable solid which depends on temperature and pressure. Bottom Simulating Reflector (BSR) methods can be used to see the appearance of the impedance contrast that occurs between the gas hydrate with the presence of free gas beneath it. Characteristics of BSR is high amplitude contrast across geological structure as well as can be seen from the polarity is reversed. If there is free gas below the BSR, there will be a seismic wave velocity anomaly from high to low. The inversion method Acoustic Impedance (AI) with a model-based method can be used to determine the value of acoustic impedance and velocity of gas hydrate and free gas and can determine the presence of BSR in Bengkulu Basin area. The p-wave that BSR correlated with gas hydrate ranging from 9000-10000 ft / s, while the p-wave that BSR correlated with free gas ranged between 6500-7500 ft / s. The Acoustic Impedance that BSR correlated with the gas hydrate is between 19000-21000 ft / s*g / cc, while the Acoustic Impedance that BSR correlated with free gas that are below BSR is between 12000-14000 ft / s*g / cc. From the results of the inversion models based, found that the BSR in this study were in Parigi Formation with BSR depths ranging from 1100-1300 meters below the seabed."

"Studi gas dangkal merupakan salah satu upaya yang dapat dilakukan untuk meningkatkan produksi gas pada Lapangan Lepas Pantai Jawa Barat Utara di masa mendatang. Hal ini dilakukan dengan mengubah paradigma gas dangkal yang sebelumnya dianggap berbahaya dan harus dihindari menjadi sebuah potensi gas yang dapat diproduksi secara komersial. Penampang seismik pada Formasi Cisubuh di Lapangan Z menunjukkan adanya anomali karakteristik seismik berupa bright spot dan acoustic blanking pada kedalaman kisaran 450 hingga 600 ms yang berasosiasi dengan pembacaan anomali gas pada data completion log dan mudlog. Tujuan penelitian ini untuk mengidentifikasi distribusi lateral reservoir dan mengestimasi volume gas dangkal. Tiga atribut seismik yang digunakan yaitu atribut max peak amplitude, amplitudo rms, dan frekuensi sesaat. Hasil crossplot menunjukkan adanya korelasi yang baik antara nilai total gas tinggi dengan nilai amplitudo yang tinggi. Geometri reservoir gas dangkal dibuat melalui interpretasi pada atribut amplitudo yang di-overlay dengan peta struktur kedalaman. Perhitungan estimasi volume menggunakan metode Original Gas In Place menghasilkan nilai gas dangkal total pada Lapangan Z sebesar 20,4 bcf dengan luas yaitu 129.776,8 acre/ft. Zona yang direkomendasikan berada pada bagian selatan lapangan dengan estimasi berkisar 2-6 bcf.

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The shallow gas study is one of the efforts that can be done to increase gas production in the Offshore of North West Java in the future. This is done by changing the paradigm of shallow gas, which was previously considered dangerous and must be avoided into a potential gas that can be produced commercially. Seismic section in the Cisubuh Formation in Field Z shows some seismic anomalies in the form of bright spots and acoustic blanking with a depth of 450 to 600 ms and associated with gas anomaly readings on data completion log and mudlog.

The purpose of this research is to identify the lateral distribution of the reservoir and estimate the volume of shallow gas. Three seismic attributes that used in this study are max peak amplitude, rms amplitude, and instantaneous frequency. Cross plot results indicate a good correlation between high total gas values with high amplitude. The shallow gas reservoir geometry is made through the interpretation of the amplitude attribute then overlay with the depth structure map. The calculation of gas volume using Original Gas In Place method, result a total value of shallow gas in Field Z of 20.4 bcf with an area of 129.776,8 acre/ft. The recommended zone is in the southern part of the field with estimates with the interval of 2-6 bcf."