Practical Implementation of Multiple Attenuation Methods on 2D Deepwater Seismic Data : Seram Sea Case Study

Nainggolan, Tumpal Bernhard; Setiady, Deny

doi:10.32693/bomg.32.1.2017.365

Cited by 4 publications

(3 citation statements)

References 12 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Surface-related multiple elimination (SRME) is a method to remove surface relative multiple. SRME predicts all surface-related multiples, assuming that the surface is perfectly reflecting boundary and the input data have been regularised prior to the application of SRME [10]…”

Section: Data Processing Methodsmentioning

confidence: 99%

Identification of gas hydrate on bottom-simulating reflector characteristics with 2D seismic pre-stack time migration of North Bali Waters

Sufajar

Manik

Nainggolan³

et al. 2021

IOP Conf. Ser.: Earth Environ. Sci.

View full text Add to dashboard Cite

Gas hydrate is a physical compound composed of gas molecules that are formed in a seabed layer characterised by high pressure and low temperature. It is known as one of the alternative non-conventional hydrocarbons besides petroleum and natural gas. One of the identified areas of gas hydrate stability zone is in the North Bali Waters. The North Bali Waters is part of the North East Java Basin, which has oil and gas exploration and production, both conventional and non-conventional. One method of identifying the content of gas hydrates is by looking at the appearance of the Bottom Simulating Reflector (BSR) as shown on the Pre-Stack Time Migrated seismic sections. The detection of gas hydrate zone is determined by the presence of high amplitude, reversed polarity reflection and cross-cut reflection of sedimentary layer. This study aims to determine the existence of a BSR in the waters of North Bali. The procedures for analysing the existence of Bottom Simulating Reflector in this study are pre-processing, processing, and interpretation of 2D marine seismic data. The result shows gas hydrates found with indicated Bottom Simulating Reflector on CDP 35-812 at TWT depth of 1526-1582 ms, characterised by high amplitude-reverse polarity.

show abstract

Section: Data Processing Methodsmentioning

confidence: 99%

Identification of gas hydrate on bottom-simulating reflector characteristics with 2D seismic pre-stack time migration of North Bali Waters

Sufajar

Manik

Nainggolan³

et al. 2021

IOP Conf. Ser.: Earth Environ. Sci.

View full text Add to dashboard Cite

show abstract

“…SRME method can predict all surface-related multiples, provided all the necessary sub-events recorded within the aperture and azimuth of the acquisition line. The surface is assumed to be perfectly reflecting boundary and the input data are assumed to have been regularized prior to the application of 2D SRME (Nainggolan and Setiady, 2017). SRME is fully data driven, which means no auxiliary prior information needs to be supplied, such as, velocity and horizon.…”

Section: Methodsmentioning

confidence: 99%

Combined Multiple Attenuation Methods and Geological Interpretation : Seram Sea Case Study 2D Marine Seismic Data

Nainggolan¹,

Rasidin²,

Setiadi³

2019

BoMG

Self Cite

View full text Add to dashboard Cite

Multiple often and always appear in marine seismic data due to very high acoustic impedance contrasts. These events have undergone more than one reflection. This causes the signal to arrive back at the receiver at an erroneous time, which, in turn, causes false results and can result in data misinterpretation. Several types of multiple suppression have been studied in literature. Methods that attenuate multiples can be classified into three broad categories: deconvolution methods; filtering methods and wavefield prediction subtraction methods. The study area is situated on Seram Sea in between 131°15’E – 132°45’E and 3°0’S – 4°0’S, Seram Trough which is located beneath Seram Sea at northern part of the Banda-Arc – Australian collision zone and currently the site of contraction between Bird’s Head and Seram. This research uses predictive deconvolution and FK-filter to attenuate short period multiple from their move out, then continued by SRME method to predict multiple that cannot be attenuated from previous method, then followed by Radon transform to attenuate multiple that still left and cannot be attenuated by SRME method. The result of each method then compared to each other to see how well multiple attenuated. Predictive deconvolution and F-K filter could not give satisfactory result especially complex area where multiple in dipping event is not periodic, SRME method successfully attenuate multiple especially in near offset multiple without need subsurface information, while SRME method fails to attenuate long offset multiple, combination of SRME method and Radon transform can give satisfactory result with careful selection of the Radon transform parameters because it can obscure some primary reflectors. Based on geological interpretation, Seram Trough is built by dominant structural style of deposited fold and thrust belt. The deposited fold and thrust belt has a complexly fault geometry from western zone until eastern of seismic line.

show abstract

“…Penggambaran struktur penampang pre stack mampu menggambarkan struktur sesar dengan lebih baik dibandingkan post stack. Migrasi Tipe PSTM dilakukan dua kali dengan kecepatan RMS yang berbeda (Nainggolan dan Setiady, 2017…”

Section: Pengolahan Dataunclassified

Interpretasi Struktur Geologi Di Perairan Aru Selatan, Maluku Berdasarkan Data Seismik 2D Multi Channel

Ustiawan

Nainggolan

Setyawan

2019

Jurnal Geosains dan Teknologi

Self Cite

View full text Add to dashboard Cite

PProduksi minyak di Indonesia telah dimulai sejak tahun 1885 ketika sumur minyak pertama di Indonesia berhasil berproduksi pada Kabupaten Langkat, Sumatera Utara. Faktor pemulihan yang rendah mengakibatkan produksi minyak di Indonesia telah menurun karena kurangnya eksplorasi dan investasi pada sektor minyak bumi. Salah satu metode geofisika yang digunakan dalam eksplorasi hidrokarbon yang pada umumnya memiliki kedalaman yang dalam yaitu adalah metode seismik. Penelitian ini bertujuan untuk melakukan interpretasi geologi terhadap penampang seismik sehingga menampilkan gambaran bawah permukaan. Pusat Penelitian dan Pengembangan Geologi Kelautan (PPPGL) merupakan unit penelitian dan pengembangan dibawah Kementerian Energi dan Sumber Daya Mineral yang melakukan tahapan pengambilan data seismik refleksi terutama di daerah laut. Tulisan ini menggunakan data seismik refeksi pada Line-14, Laut Aru Selatan, Maluku. Data metode seismik multi channel sebanyak 1 lintasan tersebut kemudian diproses menggunakan perangkat lunak pengolahan data seismik. Proses interpretasi menggunakan perangkat lunak interpretasi geologi dengan melakukan picking horizon dari batas formasi dan struktur geologi. Berdasarkan tahapan interpretasi, tatanan stratigrafi daerah penelitian memiliki kesebandingan atas Formasi Kemum, Formasi Kais, Formasi Klasafet, dan Formasi Klasaman bagian bawah. Berdasarkan interpretasi struktur geologi didapatkan kumpulan sesar normal yang dapat diindikasikan sebagai migration pathway dari hidrokarbon.

show abstract

Practical Implementation of Multiple Attenuation Methods on 2D Deepwater Seismic Data : Seram Sea Case Study

Cited by 4 publications

References 12 publications

Identification of gas hydrate on bottom-simulating reflector characteristics with 2D seismic pre-stack time migration of North Bali Waters

Identification of gas hydrate on bottom-simulating reflector characteristics with 2D seismic pre-stack time migration of North Bali Waters

Combined Multiple Attenuation Methods and Geological Interpretation : Seram Sea Case Study 2D Marine Seismic Data

Interpretasi Struktur Geologi Di Perairan Aru Selatan, Maluku Berdasarkan Data Seismik 2D Multi Channel

Contact Info

Product

Resources

About