Laboratory study on precipitation of strontium sulphate in Malaysia sandstone cores

Scale formation is one of the most serious oil field problems that inflict water injection systems primarily when two incompatible waters are involved. Two waters are incompatible if they interact chemically and precipitate minerals mixed. Due to the lack of reaction kinetics data, the rate of stron...

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Main Authors: Merdhah, Amer Badr, Mohd. Yassin, Abu Azam
Format: Article
Published: Inderscience Publishers 2009
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Online Access:http://eprints.utm.my/id/eprint/12924/
http://dx.doi.org/10.1504/IJOGCT.2009.024883
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Institution: Universiti Teknologi Malaysia
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spelling my.utm.129242017-10-25T06:21:05Z http://eprints.utm.my/id/eprint/12924/ Laboratory study on precipitation of strontium sulphate in Malaysia sandstone cores Merdhah, Amer Badr Mohd. Yassin, Abu Azam QD Chemistry Scale formation is one of the most serious oil field problems that inflict water injection systems primarily when two incompatible waters are involved. Two waters are incompatible if they interact chemically and precipitate minerals mixed. Due to the lack of reaction kinetics data, the rate of strontium sulphate deposition in porous rock was measured through flooding sandstone core samples of uniform properties with supersaturated brine. The brine was formulated at the core inlet by mixing of injected sea water and formation water that contained high concentration of strontium ion at various temperatures (50C80C) and differential pressures (100psig200 psig). The rate of SrSO4 scale formation was estimated by monitoring the core effluents strontium ion concentration. The solubility of strontium sulphate scale formed and how its solubility was affected by changes in salinity and temperatures (40C90C) were also studied. Scanning electron microscopy analysis was also used to examine the nature of scale deposition throughout the core. The results indicated increased rate of SrSO4 precipitation at higher temperatures and greater brine super-saturation. The results were utilised to build a general reaction rate equation to predict SrSO4 deposition in sandstone cores for a given temperature, brine super-saturation and differential pressures. Inderscience Publishers 2009 Article PeerReviewed Merdhah, Amer Badr and Mohd. Yassin, Abu Azam (2009) Laboratory study on precipitation of strontium sulphate in Malaysia sandstone cores. International Journal of Oil, Gas and Coal Technology, 2 (2). 121 -140. ISSN 1753-3309 http://dx.doi.org/10.1504/IJOGCT.2009.024883 doi: 10.1504/IJOGCT.2009.024883
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/
topic QD Chemistry
spellingShingle QD Chemistry
Merdhah, Amer Badr
Mohd. Yassin, Abu Azam
Laboratory study on precipitation of strontium sulphate in Malaysia sandstone cores
description Scale formation is one of the most serious oil field problems that inflict water injection systems primarily when two incompatible waters are involved. Two waters are incompatible if they interact chemically and precipitate minerals mixed. Due to the lack of reaction kinetics data, the rate of strontium sulphate deposition in porous rock was measured through flooding sandstone core samples of uniform properties with supersaturated brine. The brine was formulated at the core inlet by mixing of injected sea water and formation water that contained high concentration of strontium ion at various temperatures (50C80C) and differential pressures (100psig200 psig). The rate of SrSO4 scale formation was estimated by monitoring the core effluents strontium ion concentration. The solubility of strontium sulphate scale formed and how its solubility was affected by changes in salinity and temperatures (40C90C) were also studied. Scanning electron microscopy analysis was also used to examine the nature of scale deposition throughout the core. The results indicated increased rate of SrSO4 precipitation at higher temperatures and greater brine super-saturation. The results were utilised to build a general reaction rate equation to predict SrSO4 deposition in sandstone cores for a given temperature, brine super-saturation and differential pressures.
format Article
author Merdhah, Amer Badr
Mohd. Yassin, Abu Azam
author_facet Merdhah, Amer Badr
Mohd. Yassin, Abu Azam
author_sort Merdhah, Amer Badr
title Laboratory study on precipitation of strontium sulphate in Malaysia sandstone cores
title_short Laboratory study on precipitation of strontium sulphate in Malaysia sandstone cores
title_full Laboratory study on precipitation of strontium sulphate in Malaysia sandstone cores
title_fullStr Laboratory study on precipitation of strontium sulphate in Malaysia sandstone cores
title_full_unstemmed Laboratory study on precipitation of strontium sulphate in Malaysia sandstone cores
title_sort laboratory study on precipitation of strontium sulphate in malaysia sandstone cores
publisher Inderscience Publishers
publishDate 2009
url http://eprints.utm.my/id/eprint/12924/
http://dx.doi.org/10.1504/IJOGCT.2009.024883
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