The Critical Investigation on Essential Parameters to Optimize the Gas Lift Performance In “J” Field Using Prosper Modelling

The Critical Investigation on Essential Parameters to Optimize the Gas Lift Performance In “J” Field Using Prosper Modelling

The declining reservoir, oil production and pressure depletion with the well being produced, the results of the investment of the well will also decrease. For that there needs to be energy that can help to lift the fluid to the surface. One of the artificial lift methods that can be used is a gas li...

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Bibliographic Details
Main Authors: Fitrianti Fitrianti, Dike Fitriansyah Putra, Desma Cendra
Format: Article
Language:English
Published: Universitas Islam Riau (UIR) Press 2018-12-01
Series:Journal of Earth Energy Engineering
Subjects:
gas lift
optimization
immiscible pressure
viscosity
Online Access:https://journal.uir.ac.id/index.php/JEEE/article/view/2269
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spelling doaj-aae49d5e85ab45ca954dbf9e87dc67462020-11-25T01:41:01ZengUniversitas Islam Riau (UIR) PressJournal of Earth Energy Engineering2301-80972540-93522018-12-0172465410.25299/jeee.2018.vol7(2).2269The Critical Investigation on Essential Parameters to Optimize the Gas Lift Performance In “J” Field Using Prosper ModellingFitrianti Fitrianti0Dike Fitriansyah Putra1Desma Cendra2Universitas Islam RiauPanji Laborta CompanyUniversitas Islam RiauThe declining reservoir, oil production and pressure depletion with the well being produced, the results of the investment of the well will also decrease. For that there needs to be energy that can help to lift the fluid to the surface. One of the artificial lift methods that can be used is a gas lift. Gas lift is a method commonly used when there is a natural gas source as an injection gas supply. The selection of the artificial lift method is based on several considerations, namely the reservoir conditions, fluid conditions, well conditions, conditions on the surface, availability of electricity, availability of gas, and sand problem. The influential parameters in the selection of gas lifts include: Productivity Index (PI), Gas Liquid Ratio (GLR), depth of the well and driving mechanism from the reservoir. The Gas Lift that the production optimization wants to do is the injection system in a Continuous Gas Lift. Used in wells that have a high Productifity Index value. Where in the LB field to be analyzed, the Productifity Index value is 2.0 bpd / psi. This study intends to optimize a gaslift well performance as an effort to maximize the results of well production. Based on the research that has been done using Prosper Modeling on the “J” field, the following conclusions are obtained the effect of pressure and viscosity on the gas lift well flow rate in this condition can be said to be efficient, because the conditions / pressure given at temperatures below 300 F can reach the miscible condition and from the results of determining the optimal conditions to get the best well performance, obtain an optimal liquid rate of 1829.4 STB / D with an oil rate of 36.6 STB / D.https://journal.uir.ac.id/index.php/JEEE/article/view/2269gas liftoptimizationimmiscible pressureviscosity
collection DOAJ
language English
format Article
sources DOAJ
author Fitrianti Fitrianti
Dike Fitriansyah Putra
Desma Cendra
spellingShingle Fitrianti Fitrianti
Dike Fitriansyah Putra
Desma Cendra
The Critical Investigation on Essential Parameters to Optimize the Gas Lift Performance In “J” Field Using Prosper Modelling
Journal of Earth Energy Engineering
gas lift
optimization
immiscible pressure
viscosity
author_facet Fitrianti Fitrianti
Dike Fitriansyah Putra
Desma Cendra
author_sort Fitrianti Fitrianti
title The Critical Investigation on Essential Parameters to Optimize the Gas Lift Performance In “J” Field Using Prosper Modelling
title_short The Critical Investigation on Essential Parameters to Optimize the Gas Lift Performance In “J” Field Using Prosper Modelling
title_full The Critical Investigation on Essential Parameters to Optimize the Gas Lift Performance In “J” Field Using Prosper Modelling
title_fullStr The Critical Investigation on Essential Parameters to Optimize the Gas Lift Performance In “J” Field Using Prosper Modelling
title_full_unstemmed The Critical Investigation on Essential Parameters to Optimize the Gas Lift Performance In “J” Field Using Prosper Modelling
title_sort critical investigation on essential parameters to optimize the gas lift performance in “j” field using prosper modelling
publisher Universitas Islam Riau (UIR) Press
series Journal of Earth Energy Engineering
issn 2301-8097
2540-9352
publishDate 2018-12-01
description The declining reservoir, oil production and pressure depletion with the well being produced, the results of the investment of the well will also decrease. For that there needs to be energy that can help to lift the fluid to the surface. One of the artificial lift methods that can be used is a gas lift. Gas lift is a method commonly used when there is a natural gas source as an injection gas supply. The selection of the artificial lift method is based on several considerations, namely the reservoir conditions, fluid conditions, well conditions, conditions on the surface, availability of electricity, availability of gas, and sand problem. The influential parameters in the selection of gas lifts include: Productivity Index (PI), Gas Liquid Ratio (GLR), depth of the well and driving mechanism from the reservoir. The Gas Lift that the production optimization wants to do is the injection system in a Continuous Gas Lift. Used in wells that have a high Productifity Index value. Where in the LB field to be analyzed, the Productifity Index value is 2.0 bpd / psi. This study intends to optimize a gaslift well performance as an effort to maximize the results of well production. Based on the research that has been done using Prosper Modeling on the “J” field, the following conclusions are obtained the effect of pressure and viscosity on the gas lift well flow rate in this condition can be said to be efficient, because the conditions / pressure given at temperatures below 300 F can reach the miscible condition and from the results of determining the optimal conditions to get the best well performance, obtain an optimal liquid rate of 1829.4 STB / D with an oil rate of 36.6 STB / D.
topic gas lift
optimization
immiscible pressure
viscosity
url https://journal.uir.ac.id/index.php/JEEE/article/view/2269
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