Rejuvenation of a mature tight sandstone oil reservoir through multistage hydraulic fracturing: a case study of a North African Basin
Rejuvenation of a mature tight sandstone oil reservoir through multistage hydraulic fracturing: a case study of a North African Basin
Development of mature oil fields has been increasingly attractive in recent years as a significant amount of world oil and gas production is being extracted from these formations. Hydraulic fracturing (either as a selective corrective stimulation method or as a preliminary completion approach) is a well-established technique in mature oil field rejuvenation to improve productivity and deliverability of such a diminishing field. After many years of successful production in A1 and A2 reservoirs, A3 and A4 reservoirs were developed with only one hydraulically fractured vertical well (Well #1). As the production from well #1 in A3/A4 reservoirs was below the expectation, the well was shut down after 3 years of production. Therefore, the main objective of this research paper is to investigate re-development options for A3/A4 reservoirs due to the low deliverability and productivity of the vertical well #1. Sensitivity analysis for history matching, critical conductivity, and optimum dimensionless fracture conductivity (Cfd) was performed followed by forecasting and multistage hydraulic fracturing. Numerical results showed that there is a critical conductivity beyond which production is insensitive to the conductivity, for a specific propped length and production time. Results also showed that critical conductivity increased with propped length and decreased with production time. After 25 years of forecasting, the recovery factor for the 900m lateral with eight fractures and 110m spacing was the highest at 2.65%. The corresponding values for the 300m and 600m laterals were 2.37% and 2.42%. Therefore, the study suggests that horizontal wells with a longer length and optimized number of fractures and spacing will provide maximum well recovery.
50-70
Gharavi, Amir Hossain
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Hassan, Mohamed G
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Ghoochaninejad, Hesam Zarehparvar
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Kenomore, Michael
94a249af-8730-4253-99a2-1cbccbe8ed31
Fianu, John Senam
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Shah, Amjad
acbfbb5c-fe5d-4703-8f1b-2397f18e80d8
Buick, James M.
c2b2f76c-1e64-43dc-8b57-d1fe018e1560
January 2022
Gharavi, Amir Hossain
d7541610-9533-41d7-ac91-2aad65a85822
Hassan, Mohamed G
ce323212-f178-4d72-85cf-23cd30605cd8
Ghoochaninejad, Hesam Zarehparvar
b5aaa157-2312-441d-91e1-2f8d6051bff0
Kenomore, Michael
94a249af-8730-4253-99a2-1cbccbe8ed31
Fianu, John Senam
18396909-6a3d-4b3c-807d-9388d15bbb54
Shah, Amjad
acbfbb5c-fe5d-4703-8f1b-2397f18e80d8
Buick, James M.
c2b2f76c-1e64-43dc-8b57-d1fe018e1560
Gharavi, Amir Hossain, Hassan, Mohamed G, Ghoochaninejad, Hesam Zarehparvar, Kenomore, Michael, Fianu, John Senam, Shah, Amjad and Buick, James M.
(2022)
Rejuvenation of a mature tight sandstone oil reservoir through multistage hydraulic fracturing: a case study of a North African Basin.
Journal of Petroleum Geomechanics, 4 (3), .
(doi:10.22107/JPG.2021.215847.1115).
Abstract
Development of mature oil fields has been increasingly attractive in recent years as a significant amount of world oil and gas production is being extracted from these formations. Hydraulic fracturing (either as a selective corrective stimulation method or as a preliminary completion approach) is a well-established technique in mature oil field rejuvenation to improve productivity and deliverability of such a diminishing field. After many years of successful production in A1 and A2 reservoirs, A3 and A4 reservoirs were developed with only one hydraulically fractured vertical well (Well #1). As the production from well #1 in A3/A4 reservoirs was below the expectation, the well was shut down after 3 years of production. Therefore, the main objective of this research paper is to investigate re-development options for A3/A4 reservoirs due to the low deliverability and productivity of the vertical well #1. Sensitivity analysis for history matching, critical conductivity, and optimum dimensionless fracture conductivity (Cfd) was performed followed by forecasting and multistage hydraulic fracturing. Numerical results showed that there is a critical conductivity beyond which production is insensitive to the conductivity, for a specific propped length and production time. Results also showed that critical conductivity increased with propped length and decreased with production time. After 25 years of forecasting, the recovery factor for the 900m lateral with eight fractures and 110m spacing was the highest at 2.65%. The corresponding values for the 300m and 600m laterals were 2.37% and 2.42%. Therefore, the study suggests that horizontal wells with a longer length and optimized number of fractures and spacing will provide maximum well recovery.
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e-pub ahead of print date: 14 June 2021
Published date: January 2022
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Local EPrints ID: 480380
URI: http://eprints.soton.ac.uk/id/eprint/480380
ISSN: 2538-4651
PURE UUID: e3bfd5c7-036d-4c28-99f9-9fb2b6b3a276
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Date deposited: 01 Aug 2023 18:57
Last modified: 17 Mar 2024 04:00
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Author:
Amir Hossain Gharavi
Author:
Hesam Zarehparvar Ghoochaninejad
Author:
Michael Kenomore
Author:
John Senam Fianu
Author:
Amjad Shah
Author:
James M. Buick
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