Computer-assisted in coiled tubing perforation limitations: A case study from MA-X gas well

Computer-assisted in coiled tubing perforation limitations: A case study from MA-X gas well

This paper seeks to determine the optimum operating conditions for deploying casing perforation guns based on CT to target depths in gas well MA-X by utilising Orpheus Model in CERBERUS. Orpheus assisted to solve the complicated scenarios and complex analysis involves mathematical modelling which is...

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Main Authors: Han, Kung Yee, Sidek, Akhmal, Supee, Aizuddin, Junin, Radzuan, Jaafar, Zaidi, Md. Nasir, Ahmad Nabil, Tarmidi, Zakri, Omar, Shaziera
Format: Conference or Workshop Item
Language:English
Published: 2021
Subjects:
TP Chemical technology
Online Access:http://eprints.utm.my/id/eprint/96088/1/ZaidiJaafar2021_ComputerAssistedinCoiledTubingPerforationLimitations.pdf
http://eprints.utm.my/id/eprint/96088/
http://dx.doi.org/10.1088/1742-6596/2129/1/012013
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Institution: Universiti Teknologi Malaysia
Language: English
id my.utm.96088
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spelling my.utm.960882022-07-03T07:53:58Z http://eprints.utm.my/id/eprint/96088/ Computer-assisted in coiled tubing perforation limitations: A case study from MA-X gas well Han, Kung Yee Sidek, Akhmal Supee, Aizuddin Junin, Radzuan Jaafar, Zaidi Md. Nasir, Ahmad Nabil Tarmidi, Zakri Omar, Shaziera TP Chemical technology This paper seeks to determine the optimum operating conditions for deploying casing perforation guns based on CT to target depths in gas well MA-X by utilising Orpheus Model in CERBERUS. Orpheus assisted to solve the complicated scenarios and complex analysis involves mathematical modelling which is necessitates for computer processing powers. This study investigated four different Coiled Tubing (CT) intervention operational variables namely borehole assembly, CT grade outer diameter (OD), well fluid type and fractional reducer application included examined two scenarios which are running tools in (RIH) and pulling out from borehole (POOH). Only CT workstring with outer diameter between 1-1/4 inch and 2-7/8 inch is considered due to the wellbore completion minimum restriction. Constrained by economic and logistical reasons, only fresh water, 2% KCl, 15% HCl, sea water and diesel will be considered for the well bore fluid. Fractional reducer effects was simulated and analysed. Based on simulation results, the CT outer diameter 1-3/4 inch workstring optimized operation, the CT grade is QT1000 increased mechanical properties. A suitable well fluid is sea water with application of friction reducer improve CT perforation performances to achieve maximum target depth. 2021 Conference or Workshop Item PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/96088/1/ZaidiJaafar2021_ComputerAssistedinCoiledTubingPerforationLimitations.pdf Han, Kung Yee and Sidek, Akhmal and Supee, Aizuddin and Junin, Radzuan and Jaafar, Zaidi and Md. Nasir, Ahmad Nabil and Tarmidi, Zakri and Omar, Shaziera (2021) Computer-assisted in coiled tubing perforation limitations: A case study from MA-X gas well. In: 1st International Conference on Material Processing and Technology, ICMProTech 2021, 14 -15 Julai 2021, Perlis, Virtual. http://dx.doi.org/10.1088/1742-6596/2129/1/012013
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
language English
topic TP Chemical technology
spellingShingle TP Chemical technology
Han, Kung Yee
Sidek, Akhmal
Supee, Aizuddin
Junin, Radzuan
Jaafar, Zaidi
Md. Nasir, Ahmad Nabil
Tarmidi, Zakri
Omar, Shaziera
Computer-assisted in coiled tubing perforation limitations: A case study from MA-X gas well
description This paper seeks to determine the optimum operating conditions for deploying casing perforation guns based on CT to target depths in gas well MA-X by utilising Orpheus Model in CERBERUS. Orpheus assisted to solve the complicated scenarios and complex analysis involves mathematical modelling which is necessitates for computer processing powers. This study investigated four different Coiled Tubing (CT) intervention operational variables namely borehole assembly, CT grade outer diameter (OD), well fluid type and fractional reducer application included examined two scenarios which are running tools in (RIH) and pulling out from borehole (POOH). Only CT workstring with outer diameter between 1-1/4 inch and 2-7/8 inch is considered due to the wellbore completion minimum restriction. Constrained by economic and logistical reasons, only fresh water, 2% KCl, 15% HCl, sea water and diesel will be considered for the well bore fluid. Fractional reducer effects was simulated and analysed. Based on simulation results, the CT outer diameter 1-3/4 inch workstring optimized operation, the CT grade is QT1000 increased mechanical properties. A suitable well fluid is sea water with application of friction reducer improve CT perforation performances to achieve maximum target depth.
format Conference or Workshop Item
author Han, Kung Yee
Sidek, Akhmal
Supee, Aizuddin
Junin, Radzuan
Jaafar, Zaidi
Md. Nasir, Ahmad Nabil
Tarmidi, Zakri
Omar, Shaziera
author_facet Han, Kung Yee
Sidek, Akhmal
Supee, Aizuddin
Junin, Radzuan
Jaafar, Zaidi
Md. Nasir, Ahmad Nabil
Tarmidi, Zakri
Omar, Shaziera
author_sort Han, Kung Yee
title Computer-assisted in coiled tubing perforation limitations: A case study from MA-X gas well
title_short Computer-assisted in coiled tubing perforation limitations: A case study from MA-X gas well
title_full Computer-assisted in coiled tubing perforation limitations: A case study from MA-X gas well
title_fullStr Computer-assisted in coiled tubing perforation limitations: A case study from MA-X gas well
title_full_unstemmed Computer-assisted in coiled tubing perforation limitations: A case study from MA-X gas well
title_sort computer-assisted in coiled tubing perforation limitations: a case study from ma-x gas well
publishDate 2021
url http://eprints.utm.my/id/eprint/96088/1/ZaidiJaafar2021_ComputerAssistedinCoiledTubingPerforationLimitations.pdf
http://eprints.utm.my/id/eprint/96088/
http://dx.doi.org/10.1088/1742-6596/2129/1/012013
_version_ 1738510322047647744

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