TY - JOUR
T1 - Reconstruction of subsurface potential hydrocarbon reservoirs through 3D seismic automatic interpretation and attribute analysis
AU - Bashir, Yasir
AU - Kemerli, Bilge Deniz
AU - Yılmaz, Tuana
AU - Saral, Mert
AU - Göknar, Emre Can
AU - Korkmaz, Elif
N1 - Publisher Copyright:
© 2024 Elsevier Ltd
PY - 2024/12
Y1 - 2024/12
N2 - Seismic texture is an emerging concept in the field of exploration geophysics that has not been adequately understood. Despite the recent development of several approaches and algorithms, each of them has exhibited certain limitations. This study aims to utilize 3D seismic automatic interpretation to reconstruct the subsurface potential hydrocarbon reservoirs. Our goal is to unveil the intricate structures in the subsurface of the F-3 block at the offshore region of the North Sea. The research involves the use of a relative geological model (RGT) framework to analyze seismic data, determine the presence of hydrocarbon deposits, and investigate trap structures. With high-density stratal slicing, we have linked the key surfaces to significant events and manipulated the data to enhance data recognition, detection, and characterization of detailed geological features. The uniqueness of the method allows for a faster and more efficient analysis process. The research aims to analyze 3D seismic data, gain insights into the local petroleum system, and assess seismic attributes to identify features. The results underscore the value of conducting a comprehensive analysis of geological complexities, which has made significant contributions to the fields of geophysics and hydrocarbon exploration. The methodology used in this study provides valuable insights for future research and evaluation endeavors. Ultimately, the new approach Streamline your workflow by dedicating more attention to incorporating expertise in the depositional history of the basin.
AB - Seismic texture is an emerging concept in the field of exploration geophysics that has not been adequately understood. Despite the recent development of several approaches and algorithms, each of them has exhibited certain limitations. This study aims to utilize 3D seismic automatic interpretation to reconstruct the subsurface potential hydrocarbon reservoirs. Our goal is to unveil the intricate structures in the subsurface of the F-3 block at the offshore region of the North Sea. The research involves the use of a relative geological model (RGT) framework to analyze seismic data, determine the presence of hydrocarbon deposits, and investigate trap structures. With high-density stratal slicing, we have linked the key surfaces to significant events and manipulated the data to enhance data recognition, detection, and characterization of detailed geological features. The uniqueness of the method allows for a faster and more efficient analysis process. The research aims to analyze 3D seismic data, gain insights into the local petroleum system, and assess seismic attributes to identify features. The results underscore the value of conducting a comprehensive analysis of geological complexities, which has made significant contributions to the fields of geophysics and hydrocarbon exploration. The methodology used in this study provides valuable insights for future research and evaluation endeavors. Ultimately, the new approach Streamline your workflow by dedicating more attention to incorporating expertise in the depositional history of the basin.
KW - 3D seismic interpretation
KW - Hydrocarbon exploration
KW - North sea
KW - Seismic attributes
KW - Seismic texture
UR - http://www.scopus.com/inward/record.url?scp=85205218177&partnerID=8YFLogxK
U2 - 10.1016/j.pce.2024.103751
DO - 10.1016/j.pce.2024.103751
M3 - Article
AN - SCOPUS:85205218177
SN - 1474-7065
VL - 136
JO - Physics and Chemistry of the Earth
JF - Physics and Chemistry of the Earth
M1 - 103751
ER -