Simulation Study on IWAG Assisted by Low Salinity Water Injection for Light Oil Reservoirs

Water alternating gas (WAG) injection is a widely practiced Enhanced Oil Recovery (EOR) technique for light oil reservoirs. On the other hand, various researches have documented that using the Smart water concept can further enhance the oil recovery obtained from water-flooding. Although, there was...

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Main Author: Ahmed Hussien, Mohamed Yousry
Format: Final Year Project
Language:English
Published: Universiti Teknologi PETRONAS 2013
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Online Access:http://utpedia.utp.edu.my/10648/1/FYP_MohamedYousry_PE_12279_May13.pdf
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Institution: Universiti Teknologi Petronas
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spelling my-utp-utpedia.106482017-01-25T09:38:59Z http://utpedia.utp.edu.my/10648/ Simulation Study on IWAG Assisted by Low Salinity Water Injection for Light Oil Reservoirs Ahmed Hussien, Mohamed Yousry T Technology (General) Water alternating gas (WAG) injection is a widely practiced Enhanced Oil Recovery (EOR) technique for light oil reservoirs. On the other hand, various researches have documented that using the Smart water concept can further enhance the oil recovery obtained from water-flooding. Although, there was extensive researches conducted on each of the WAG and the smart water techniques separately, yet there are a very few researches conducted on using the smart water concept as the injection water in WAG technique. Previous laboratory core flooding researches have shown that reducing the salinity of the injection water in miscible WAG process would decrease the ultimate oil recovery. The published literature attributed that to the fact that reducing the salinity of the injection water would increase the solubility of the injected gas in water and thus reducing the amount of available gas to be soluble in oil. Reservoir simulation processes were utilized in order to study the effect of using the smart water as the injection water in IWAG technique for light oil reservoirs. A synthetic model with 7,500 grid cells was used to evaluate the performance of several injection scenarios involving low salinity water and WAG techniques under the conditions of light oil reservoir at the depth of -6,000 ft. with oil API of 45°. The thickness of the reservoir is 30 ft. The simulated results showed that using low salinity water as the injection water in immiscible WAG process would increase the oil recovery by 3.5% of the original oil in place (OOIP) than when using conventional high salinity water for light oil reservoirs. The results obtained from the simulation processes do not contradict the laboratory experiments results because of two main reasons. The first reason is that the simulation operations were based on immiscible WAG processes while the core flooding experiments were based on miscible WAG processes, and the second one is due to the gravity effects. During core flooding operations, gravity effects are minimal, while it was taken in consideration during the simulation processes. Another important discovery by the reservoir simulation operations is that using a slug of low salinity water followed by high salinity drive water has much higher recoveries than conventional high salinity water flooding, and that adjusting the slug size can obtain recoveries almost as high as continuous low salinity water injection Universiti Teknologi PETRONAS 2013-05 Final Year Project NonPeerReviewed application/pdf en http://utpedia.utp.edu.my/10648/1/FYP_MohamedYousry_PE_12279_May13.pdf Ahmed Hussien, Mohamed Yousry (2013) Simulation Study on IWAG Assisted by Low Salinity Water Injection for Light Oil Reservoirs. Universiti Teknologi PETRONAS. (Unpublished)
institution Universiti Teknologi Petronas
building UTP Resource Centre
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Petronas
content_source UTP Electronic and Digitized Intellectual Asset
url_provider http://utpedia.utp.edu.my/
language English
topic T Technology (General)
spellingShingle T Technology (General)
Ahmed Hussien, Mohamed Yousry
Simulation Study on IWAG Assisted by Low Salinity Water Injection for Light Oil Reservoirs
description Water alternating gas (WAG) injection is a widely practiced Enhanced Oil Recovery (EOR) technique for light oil reservoirs. On the other hand, various researches have documented that using the Smart water concept can further enhance the oil recovery obtained from water-flooding. Although, there was extensive researches conducted on each of the WAG and the smart water techniques separately, yet there are a very few researches conducted on using the smart water concept as the injection water in WAG technique. Previous laboratory core flooding researches have shown that reducing the salinity of the injection water in miscible WAG process would decrease the ultimate oil recovery. The published literature attributed that to the fact that reducing the salinity of the injection water would increase the solubility of the injected gas in water and thus reducing the amount of available gas to be soluble in oil. Reservoir simulation processes were utilized in order to study the effect of using the smart water as the injection water in IWAG technique for light oil reservoirs. A synthetic model with 7,500 grid cells was used to evaluate the performance of several injection scenarios involving low salinity water and WAG techniques under the conditions of light oil reservoir at the depth of -6,000 ft. with oil API of 45°. The thickness of the reservoir is 30 ft. The simulated results showed that using low salinity water as the injection water in immiscible WAG process would increase the oil recovery by 3.5% of the original oil in place (OOIP) than when using conventional high salinity water for light oil reservoirs. The results obtained from the simulation processes do not contradict the laboratory experiments results because of two main reasons. The first reason is that the simulation operations were based on immiscible WAG processes while the core flooding experiments were based on miscible WAG processes, and the second one is due to the gravity effects. During core flooding operations, gravity effects are minimal, while it was taken in consideration during the simulation processes. Another important discovery by the reservoir simulation operations is that using a slug of low salinity water followed by high salinity drive water has much higher recoveries than conventional high salinity water flooding, and that adjusting the slug size can obtain recoveries almost as high as continuous low salinity water injection
format Final Year Project
author Ahmed Hussien, Mohamed Yousry
author_facet Ahmed Hussien, Mohamed Yousry
author_sort Ahmed Hussien, Mohamed Yousry
title Simulation Study on IWAG Assisted by Low Salinity Water Injection for Light Oil Reservoirs
title_short Simulation Study on IWAG Assisted by Low Salinity Water Injection for Light Oil Reservoirs
title_full Simulation Study on IWAG Assisted by Low Salinity Water Injection for Light Oil Reservoirs
title_fullStr Simulation Study on IWAG Assisted by Low Salinity Water Injection for Light Oil Reservoirs
title_full_unstemmed Simulation Study on IWAG Assisted by Low Salinity Water Injection for Light Oil Reservoirs
title_sort simulation study on iwag assisted by low salinity water injection for light oil reservoirs
publisher Universiti Teknologi PETRONAS
publishDate 2013
url http://utpedia.utp.edu.my/10648/1/FYP_MohamedYousry_PE_12279_May13.pdf
http://utpedia.utp.edu.my/10648/
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