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Design and Application of a New Acid-Alkali-Surfactant Flooding Formulation for Malaysian Reservoirs

A new Acid-Alkali-Polymeric Surfactant (AAPS) flooding formulation has been developed to overcome the precipitation problems caused by the divalent metal cations prevalent with conventional ASP flooding. The acid was evaluated in an acid-alkali-surfactant formulation using sodium carbonate and intro...

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Main Authors: Khaled , A. Elraies, Isa , M. Tan
Format: Article
Published: Society of Petroleum Engineers 2010
Subjects:
TP Chemical technology
QD Chemistry
Online Access:http://eprints.utp.edu.my/4262/1/SPE-133005-MS-P.pdf
http://eprints.utp.edu.my/4262/
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spelling my.utp.eprints.42622017-03-20T01:59:58Z Design and Application of a New Acid-Alkali-Surfactant Flooding Formulation for Malaysian Reservoirs Khaled , A. Elraies Isa , M. Tan TP Chemical technology QD Chemistry A new Acid-Alkali-Polymeric Surfactant (AAPS) flooding formulation has been developed to overcome the precipitation problems caused by the divalent metal cations prevalent with conventional ASP flooding. The acid was evaluated in an acid-alkali-surfactant formulation using sodium carbonate and introducing a new polymeric surfactant derived from Jatropha oil. The effect of the new formula on IFT, viscosity, and oil recovery was studied using natural seawater having a large quantity of divalent metal cations. The tolerance of the AAPS towards natural untreated sea water was monitored for 90 days at 90 oC. No precipitations were formed with the acid additive, while precipitations were always generated without the acid. A combination of the new system was found to significantly reduce the IFT between Angsi crude oil and AAPS solution. The most outstanding feature of the AAPS formulation lies in its viscosity insensivity towards an increasing alkali concentration up to 1.2%. Core flood tests with alkali and acid concentrations of 0.6% and 1% respectively confirmed an optimum surfactant concentration of 0.6%. Using the optimum AAPS concentrations, another series of core flood were conducted by changing the injection volume. Only a small incremental recovery was obtained with AAPS slugs higher than 0.5 PV. Injection of 0.5 PV of the formulated AAPS slug followed by chase water produced an additional 18.8% OOIP over water flooding. The benefit of the new system is the use of seawater rather than softened water while maintaining the desired slug properties. Society of Petroleum Engineers 2010 Article PeerReviewed application/pdf http://eprints.utp.edu.my/4262/1/SPE-133005-MS-P.pdf Khaled , A. Elraies and Isa , M. Tan (2010) Design and Application of a New Acid-Alkali-Surfactant Flooding Formulation for Malaysian Reservoirs. Society of Petroleum Engineers (133005). http://eprints.utp.edu.my/4262/
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/
topic TP Chemical technology
QD Chemistry
spellingShingle TP Chemical technology
QD Chemistry
Khaled , A. Elraies
Isa , M. Tan
Design and Application of a New Acid-Alkali-Surfactant Flooding Formulation for Malaysian Reservoirs
description A new Acid-Alkali-Polymeric Surfactant (AAPS) flooding formulation has been developed to overcome the precipitation problems caused by the divalent metal cations prevalent with conventional ASP flooding. The acid was evaluated in an acid-alkali-surfactant formulation using sodium carbonate and introducing a new polymeric surfactant derived from Jatropha oil. The effect of the new formula on IFT, viscosity, and oil recovery was studied using natural seawater having a large quantity of divalent metal cations. The tolerance of the AAPS towards natural untreated sea water was monitored for 90 days at 90 oC. No precipitations were formed with the acid additive, while precipitations were always generated without the acid. A combination of the new system was found to significantly reduce the IFT between Angsi crude oil and AAPS solution. The most outstanding feature of the AAPS formulation lies in its viscosity insensivity towards an increasing alkali concentration up to 1.2%. Core flood tests with alkali and acid concentrations of 0.6% and 1% respectively confirmed an optimum surfactant concentration of 0.6%. Using the optimum AAPS concentrations, another series of core flood were conducted by changing the injection volume. Only a small incremental recovery was obtained with AAPS slugs higher than 0.5 PV. Injection of 0.5 PV of the formulated AAPS slug followed by chase water produced an additional 18.8% OOIP over water flooding. The benefit of the new system is the use of seawater rather than softened water while maintaining the desired slug properties.
format Article
author Khaled , A. Elraies
Isa , M. Tan
author_facet Khaled , A. Elraies
Isa , M. Tan
author_sort Khaled , A. Elraies
title Design and Application of a New Acid-Alkali-Surfactant Flooding Formulation for Malaysian Reservoirs
title_short Design and Application of a New Acid-Alkali-Surfactant Flooding Formulation for Malaysian Reservoirs
title_full Design and Application of a New Acid-Alkali-Surfactant Flooding Formulation for Malaysian Reservoirs
title_fullStr Design and Application of a New Acid-Alkali-Surfactant Flooding Formulation for Malaysian Reservoirs
title_full_unstemmed Design and Application of a New Acid-Alkali-Surfactant Flooding Formulation for Malaysian Reservoirs
title_sort design and application of a new acid-alkali-surfactant flooding formulation for malaysian reservoirs
publisher Society of Petroleum Engineers
publishDate 2010
url http://eprints.utp.edu.my/4262/1/SPE-133005-MS-P.pdf
http://eprints.utp.edu.my/4262/
_version_ 1738655329776828416
score 13.211869

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