Completion Design for The Development of a Multi-Layer and Multi Fluid Reservoir Systemin Offshore Well AA-01, North-West Java

Completion Design for The Development of a Multi-Layer and Multi Fluid Reservoir Systemin Offshore Well AA-01, North-West Java

Completion systems are important components of hydrocarbon field development. As the link between the reservoir and surface facilities, completions need to be designed to maximize hydrocarbon recovery and withstand consistently changing conditions for years, within the safety requirements. However,...

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Bibliographic Details
Main Authors: Wijoyo Niti Daton, Vincent Chandra, Steven Chandra
Format: Article
Language:English
Published: Universitas Islam Riau (UIR) Press 2021-07-01
Series:Journal of Earth Energy Engineering
Subjects:
completion
multi-layer
multi-fluid
hydrocarbon
production
Online Access:https://journal.uir.ac.id/index.php/JEEE/article/view/6606
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spelling doaj-c1d30601d55541149a28d633c98e52692021-07-29T19:12:40ZengUniversitas Islam Riau (UIR) PressJournal of Earth Energy Engineering2301-80972540-93522021-07-0110210.25299/jeee.2021.6606Completion Design for The Development of a Multi-Layer and Multi Fluid Reservoir Systemin Offshore Well AA-01, North-West JavaWijoyo Niti Daton0Vincent Chandra1Steven Chandra2Petroleum Engineering Department, Institut Teknologi BandungPetroleum Engineering Department, Institut Teknologi BandungInstitut Teknologi BandungCompletion systems are important components of hydrocarbon field development. As the link between the reservoir and surface facilities, completions need to be designed to maximize hydrocarbon recovery and withstand consistently changing conditions for years, within the safety requirements. However, designing completion for a well comprising a multi-layer and multi-fluid reservoir is quite challenging. The completion design must use the right materials and be able to safely produce single, as well as commingle products, and add any artificial lifts, depending on the method with the most optimum value. This paper, therefore, discusses the model development of completion design for an offshore well AA-01, one of the offshore wells with multi-layer and multi-fluid reservoir systems in Indonesia. Well AA-01 penetrates two productive layers, the upper layer AA-U1, and the lower layer AA-L2. The upper layer is a gas reservoir with initial gas in place of 1440 MMSCF, while the lower layer is an oil reservoir with initial oil in place of 6.1 MMSTB. In addition, the model design used available field data, for instance, PVT and DST, from well X. The base well completion was also used to model the completion design in software. Meanwhile, commercial software was utilized to estimate the well hydrocarbon recovery. Subsequently, several designs were tested, and the design with maximum production as well as hydrocarbon recovery was selected. The completion design selected comprises 9⅝ inch 47 ppf L-80 production casing, as well as 7⅝ inch 29.7 ppf L-80 liner, and produced commingle with oil and gas recovery of about 50.16% and 92.3%, respectively, in 5 years production https://journal.uir.ac.id/index.php/JEEE/article/view/6606completionmulti-layermulti-fluidhydrocarbonproduction
collection DOAJ
language English
format Article
sources DOAJ
author Wijoyo Niti Daton
Vincent Chandra
Steven Chandra
spellingShingle Wijoyo Niti Daton
Vincent Chandra
Steven Chandra
Completion Design for The Development of a Multi-Layer and Multi Fluid Reservoir Systemin Offshore Well AA-01, North-West Java
Journal of Earth Energy Engineering
completion
multi-layer
multi-fluid
hydrocarbon
production
author_facet Wijoyo Niti Daton
Vincent Chandra
Steven Chandra
author_sort Wijoyo Niti Daton
title Completion Design for The Development of a Multi-Layer and Multi Fluid Reservoir Systemin Offshore Well AA-01, North-West Java
title_short Completion Design for The Development of a Multi-Layer and Multi Fluid Reservoir Systemin Offshore Well AA-01, North-West Java
title_full Completion Design for The Development of a Multi-Layer and Multi Fluid Reservoir Systemin Offshore Well AA-01, North-West Java
title_fullStr Completion Design for The Development of a Multi-Layer and Multi Fluid Reservoir Systemin Offshore Well AA-01, North-West Java
title_full_unstemmed Completion Design for The Development of a Multi-Layer and Multi Fluid Reservoir Systemin Offshore Well AA-01, North-West Java
title_sort completion design for the development of a multi-layer and multi fluid reservoir systemin offshore well aa-01, north-west java
publisher Universitas Islam Riau (UIR) Press
series Journal of Earth Energy Engineering
issn 2301-8097
2540-9352
publishDate 2021-07-01
description Completion systems are important components of hydrocarbon field development. As the link between the reservoir and surface facilities, completions need to be designed to maximize hydrocarbon recovery and withstand consistently changing conditions for years, within the safety requirements. However, designing completion for a well comprising a multi-layer and multi-fluid reservoir is quite challenging. The completion design must use the right materials and be able to safely produce single, as well as commingle products, and add any artificial lifts, depending on the method with the most optimum value. This paper, therefore, discusses the model development of completion design for an offshore well AA-01, one of the offshore wells with multi-layer and multi-fluid reservoir systems in Indonesia. Well AA-01 penetrates two productive layers, the upper layer AA-U1, and the lower layer AA-L2. The upper layer is a gas reservoir with initial gas in place of 1440 MMSCF, while the lower layer is an oil reservoir with initial oil in place of 6.1 MMSTB. In addition, the model design used available field data, for instance, PVT and DST, from well X. The base well completion was also used to model the completion design in software. Meanwhile, commercial software was utilized to estimate the well hydrocarbon recovery. Subsequently, several designs were tested, and the design with maximum production as well as hydrocarbon recovery was selected. The completion design selected comprises 9⅝ inch 47 ppf L-80 production casing, as well as 7⅝ inch 29.7 ppf L-80 liner, and produced commingle with oil and gas recovery of about 50.16% and 92.3%, respectively, in 5 years production
topic completion
multi-layer
multi-fluid
hydrocarbon
production
url https://journal.uir.ac.id/index.php/JEEE/article/view/6606
work_keys_str_mv AT wijoyonitidaton completiondesignforthedevelopmentofamultilayerandmultifluidreservoirsysteminoffshorewellaa01northwestjava
AT vincentchandra completiondesignforthedevelopmentofamultilayerandmultifluidreservoirsysteminoffshorewellaa01northwestjava
AT stevenchandra completiondesignforthedevelopmentofamultilayerandmultifluidreservoirsysteminoffshorewellaa01northwestjava
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