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Integrated surface and sub-surface simulation model in a single simulation platform

An integrated model between surface and sub-surface is typically done by interconnecting many process modelling platforms. PROSPER and GAP are the common steady state modelling platforms for sub-surface while VMGSim and HYSYS are typical steady state surface modelling platforms. A major issue of usi...

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Main Authors: Zainal, S.A., Daud, W.R., Rosli, M.I., Harun, S., Putra, Z.A., Bilad, M.R.
Format: Article
Published: Universitas Pendidikan Indonesia 2020
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85079438843&doi=10.17509%2fijost.v5i1.17439&partnerID=40&md5=6a8f41fa00066b53df45931e4c31d1a7
http://eprints.utp.edu.my/23341/
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spelling my.utp.eprints.233412021-08-19T07:24:48Z Integrated surface and sub-surface simulation model in a single simulation platform Zainal, S.A. Daud, W.R. Rosli, M.I. Harun, S. Putra, Z.A. Bilad, M.R. An integrated model between surface and sub-surface is typically done by interconnecting many process modelling platforms. PROSPER and GAP are the common steady state modelling platforms for sub-surface while VMGSim and HYSYS are typical steady state surface modelling platforms. A major issue of using multiple simulation platforms is the compatibility of thermodynamic physical properties calculations among the platforms. This situation makes the simulations difficult to converge to a consistent thermo physical properties values. This is due to different interaction parameters applied in each platform that impact flashing and the physical property values even though the same property package such as Peng Robinson is used. To overcome this convergence problem, a single simulation platform within iCON (PETRONAS�s standard process simulation software, co-developed with VMG-Schlumberger) has been developed. This allows the use of one thermodynamic package across the integrated model. PROSPER sub-surface pressure-flow relationship results were automatically correlated and connected to surface models within the iCON environment. This integrated model was validated with data from operations and yielded about 1.23 average error tolerance. Based on this validated model, an optimization envelope can be developed with all possible well lineup configurations. This envelope covers set points for the operations where CAPEX free optimization can readily be applied. © 2020 Tim Pengembang Jurnal UPI. Universitas Pendidikan Indonesia 2020 Article NonPeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-85079438843&doi=10.17509%2fijost.v5i1.17439&partnerID=40&md5=6a8f41fa00066b53df45931e4c31d1a7 Zainal, S.A. and Daud, W.R. and Rosli, M.I. and Harun, S. and Putra, Z.A. and Bilad, M.R. (2020) Integrated surface and sub-surface simulation model in a single simulation platform. Indonesian Journal of Science and Technology, 5 (1). pp. 109-124. http://eprints.utp.edu.my/23341/
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Institutional Repository
url_provider http://eprints.utp.edu.my/
description An integrated model between surface and sub-surface is typically done by interconnecting many process modelling platforms. PROSPER and GAP are the common steady state modelling platforms for sub-surface while VMGSim and HYSYS are typical steady state surface modelling platforms. A major issue of using multiple simulation platforms is the compatibility of thermodynamic physical properties calculations among the platforms. This situation makes the simulations difficult to converge to a consistent thermo physical properties values. This is due to different interaction parameters applied in each platform that impact flashing and the physical property values even though the same property package such as Peng Robinson is used. To overcome this convergence problem, a single simulation platform within iCON (PETRONAS�s standard process simulation software, co-developed with VMG-Schlumberger) has been developed. This allows the use of one thermodynamic package across the integrated model. PROSPER sub-surface pressure-flow relationship results were automatically correlated and connected to surface models within the iCON environment. This integrated model was validated with data from operations and yielded about 1.23 average error tolerance. Based on this validated model, an optimization envelope can be developed with all possible well lineup configurations. This envelope covers set points for the operations where CAPEX free optimization can readily be applied. © 2020 Tim Pengembang Jurnal UPI.
format Article
author Zainal, S.A.
Daud, W.R.
Rosli, M.I.
Harun, S.
Putra, Z.A.
Bilad, M.R.
spellingShingle Zainal, S.A.
Daud, W.R.
Rosli, M.I.
Harun, S.
Putra, Z.A.
Bilad, M.R.
Integrated surface and sub-surface simulation model in a single simulation platform
author_facet Zainal, S.A.
Daud, W.R.
Rosli, M.I.
Harun, S.
Putra, Z.A.
Bilad, M.R.
author_sort Zainal, S.A.
title Integrated surface and sub-surface simulation model in a single simulation platform
title_short Integrated surface and sub-surface simulation model in a single simulation platform
title_full Integrated surface and sub-surface simulation model in a single simulation platform
title_fullStr Integrated surface and sub-surface simulation model in a single simulation platform
title_full_unstemmed Integrated surface and sub-surface simulation model in a single simulation platform
title_sort integrated surface and sub-surface simulation model in a single simulation platform
publisher Universitas Pendidikan Indonesia
publishDate 2020
url https://www.scopus.com/inward/record.uri?eid=2-s2.0-85079438843&doi=10.17509%2fijost.v5i1.17439&partnerID=40&md5=6a8f41fa00066b53df45931e4c31d1a7
http://eprints.utp.edu.my/23341/
_version_ 1738656458282631168
score 13.214268

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