A Comprehensive Investigation of the Relationship between Fractures and Oil Production in a Giant Fractured Carbonate Field

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

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A Comprehensive Investigation of the Relationship between Fractures and Oil Production in a Giant Fractured Carbonate Field. / Kharrat, Riyaz; Kadkhodaie, Ali; Azizmohammadi, Siroos et al.
in: Processes : open access journal, Jahrgang 12.2024, Nr. 4, 631, 22.03.2024.

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

Harvard

Kharrat, R, Kadkhodaie, A, Azizmohammadi, S, Misch, D, Moghadasi, J, Fardin, H, Saedi, G, Rokni, R & Ott, H 2024, 'A Comprehensive Investigation of the Relationship between Fractures and Oil Production in a Giant Fractured Carbonate Field', Processes : open access journal, Jg. 12.2024, Nr. 4, 631. https://doi.org/10.3390/pr12040631

APA

Kharrat, R., Kadkhodaie, A., Azizmohammadi, S., Misch, D., Moghadasi, J., Fardin, H., Saedi, G., Rokni, R., & Ott, H. (2024). A Comprehensive Investigation of the Relationship between Fractures and Oil Production in a Giant Fractured Carbonate Field. Processes : open access journal, 12.2024(4), Artikel 631. https://doi.org/10.3390/pr12040631

Vancouver

Kharrat R, Kadkhodaie A, Azizmohammadi S, Misch D, Moghadasi J, Fardin H et al. A Comprehensive Investigation of the Relationship between Fractures and Oil Production in a Giant Fractured Carbonate Field. Processes : open access journal. 2024 Mär 22;12.2024(4):631. doi: 10.3390/pr12040631

Author

Kharrat, Riyaz ; Kadkhodaie, Ali ; Azizmohammadi, Siroos et al. / A Comprehensive Investigation of the Relationship between Fractures and Oil Production in a Giant Fractured Carbonate Field. in: Processes : open access journal. 2024 ; Jahrgang 12.2024, Nr. 4.

Bibtex - Download

@article{20159993c6994e8b87d24a9595af0cde,
title = "A Comprehensive Investigation of the Relationship between Fractures and Oil Production in a Giant Fractured Carbonate Field",
abstract = "This study examines the connections between various fracture indicators and production data with an example from one of the giant fields in the Middle East producing complex fractured carbonate lithologies. The field under study hosts two reservoirs with a long development and production history, including carbonates from the Asmari and Bangestan Formations. A fracture intensity map was generated based on the interpretation of image logs from 28 wells drilled within the field. Mud loss data were collected and mapped based on the geostatistical Gaussian Random Function Simulation (GRFS) algorithm. Maximum curvature maps were generated based on Asmari structural surface maps. Comparing the results shows a good agreement between the curvature map, fault distribution model, mud loss map, fracture intensity map, and productivity index. The results of image log interpretations led to the identification of four classes of open fractures, including major open fractures, medium open fractures, minor open fractures, and hairline fractures. Using the azimuth and dip data of the four fracture sets mentioned above, the fracture intensity log was generated as a continuous log for each well with available image log data. For this purpose, the fracture intensity log and a continuous fracture network (CFN) model were generated. The continuous fracture network model was used to generate a 3D discrete fracture network (DFN) for the Asmari Formation. Finally, a 3D upscaled model of fracture dip and azimuth, fracture porosity, fracture permeability, fracture length, fracture aperture, and the sigma parameter (the connectivity index between matrix and fracture) were obtained. The results of this study can illuminate the modeling of intricate reservoirs and the associated production challenges, providing insights not only during the initial production phase but also in the application of advanced oil recovery methods, such as thermal recovery.",
keywords = "fractured reservoirs, oil recovery, CFN, DFN, reservoir modeling, stress analysis, image logs, discrete fracture network DFN, continuous fracture network CFN, fractured reservoir",
author = "Riyaz Kharrat and Ali Kadkhodaie and Siroos Azizmohammadi and David Misch and Jamshid Moghadasi and Hashem Fardin and Ghasem Saedi and Rokni Rokni and Holger Ott",
note = "Publisher Copyright: {\textcopyright} 2024 by the authors.",
year = "2024",
month = mar,
day = "22",
doi = "10.3390/pr12040631",
language = "English",
volume = "12.2024",
journal = "Processes : open access journal",
issn = "2227-9717",
publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",
number = "4",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - A Comprehensive Investigation of the Relationship between Fractures and Oil Production in a Giant Fractured Carbonate Field

AU - Kharrat, Riyaz

AU - Kadkhodaie, Ali

AU - Azizmohammadi, Siroos

AU - Misch, David

AU - Moghadasi, Jamshid

AU - Fardin, Hashem

AU - Saedi, Ghasem

AU - Rokni, Rokni

AU - Ott, Holger

N1 - Publisher Copyright: © 2024 by the authors.

PY - 2024/3/22

Y1 - 2024/3/22

N2 - This study examines the connections between various fracture indicators and production data with an example from one of the giant fields in the Middle East producing complex fractured carbonate lithologies. The field under study hosts two reservoirs with a long development and production history, including carbonates from the Asmari and Bangestan Formations. A fracture intensity map was generated based on the interpretation of image logs from 28 wells drilled within the field. Mud loss data were collected and mapped based on the geostatistical Gaussian Random Function Simulation (GRFS) algorithm. Maximum curvature maps were generated based on Asmari structural surface maps. Comparing the results shows a good agreement between the curvature map, fault distribution model, mud loss map, fracture intensity map, and productivity index. The results of image log interpretations led to the identification of four classes of open fractures, including major open fractures, medium open fractures, minor open fractures, and hairline fractures. Using the azimuth and dip data of the four fracture sets mentioned above, the fracture intensity log was generated as a continuous log for each well with available image log data. For this purpose, the fracture intensity log and a continuous fracture network (CFN) model were generated. The continuous fracture network model was used to generate a 3D discrete fracture network (DFN) for the Asmari Formation. Finally, a 3D upscaled model of fracture dip and azimuth, fracture porosity, fracture permeability, fracture length, fracture aperture, and the sigma parameter (the connectivity index between matrix and fracture) were obtained. The results of this study can illuminate the modeling of intricate reservoirs and the associated production challenges, providing insights not only during the initial production phase but also in the application of advanced oil recovery methods, such as thermal recovery.

AB - This study examines the connections between various fracture indicators and production data with an example from one of the giant fields in the Middle East producing complex fractured carbonate lithologies. The field under study hosts two reservoirs with a long development and production history, including carbonates from the Asmari and Bangestan Formations. A fracture intensity map was generated based on the interpretation of image logs from 28 wells drilled within the field. Mud loss data were collected and mapped based on the geostatistical Gaussian Random Function Simulation (GRFS) algorithm. Maximum curvature maps were generated based on Asmari structural surface maps. Comparing the results shows a good agreement between the curvature map, fault distribution model, mud loss map, fracture intensity map, and productivity index. The results of image log interpretations led to the identification of four classes of open fractures, including major open fractures, medium open fractures, minor open fractures, and hairline fractures. Using the azimuth and dip data of the four fracture sets mentioned above, the fracture intensity log was generated as a continuous log for each well with available image log data. For this purpose, the fracture intensity log and a continuous fracture network (CFN) model were generated. The continuous fracture network model was used to generate a 3D discrete fracture network (DFN) for the Asmari Formation. Finally, a 3D upscaled model of fracture dip and azimuth, fracture porosity, fracture permeability, fracture length, fracture aperture, and the sigma parameter (the connectivity index between matrix and fracture) were obtained. The results of this study can illuminate the modeling of intricate reservoirs and the associated production challenges, providing insights not only during the initial production phase but also in the application of advanced oil recovery methods, such as thermal recovery.

KW - fractured reservoirs

KW - oil recovery

KW - CFN

KW - DFN

KW - reservoir modeling

KW - stress analysis

KW - image logs

KW - discrete fracture network DFN

KW - continuous fracture network CFN

KW - fractured reservoir

UR - https://www.mdpi.com/2227-9717/12/4/631

UR - http://www.scopus.com/inward/record.url?scp=85191381196&partnerID=8YFLogxK

U2 - 10.3390/pr12040631

DO - 10.3390/pr12040631

M3 - Article

VL - 12.2024

JO - Processes : open access journal

JF - Processes : open access journal

SN - 2227-9717

IS - 4

M1 - 631

ER -

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