Fluid loss mitigation via multi-wall carbon nanotubes-enriched water-based drilling fluid

Fluid loss is a common drilling problem that should be addressed immediately to prevent formation damage. The most efficient and easiest way to overcome fluid loss is by adding fluid loss control additives in drilling mud as fluid loss control additives can temporarily plug pores in the formations....

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Main Authors: Ismail, A. S. I., Zhi, N. L., Ismail, I., Issham, M. S., Katende, A.
Format: Article
Published: Science and Engineering Research Support Society 2020
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Online Access:http://eprints.utm.my/id/eprint/86636/
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Institution: Universiti Teknologi Malaysia
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spelling my.utm.866362020-09-30T08:58:13Z http://eprints.utm.my/id/eprint/86636/ Fluid loss mitigation via multi-wall carbon nanotubes-enriched water-based drilling fluid Ismail, A. S. I. Zhi, N. L. Ismail, I. Issham, M. S. Katende, A. TP Chemical technology Fluid loss is a common drilling problem that should be addressed immediately to prevent formation damage. The most efficient and easiest way to overcome fluid loss is by adding fluid loss control additives in drilling mud as fluid loss control additives can temporarily plug pores in the formations. In this study, combination of durian rind (DR) and multi-wall carbon nanotubes (MWCNT) was studied to increase the effectiveness of fluid loss control due to fibrous nature of DR and complex structure of MWCNT. This can reduce the durian waste and also the cost of fluid loss additives (FLAs). The objective of this study was to study the effect of MWCNT in Hydro-Pac R, a commercial fluid loss control additive and DR to control fluid loss in water-based mud by comparing the rheological and fluid loss properties at different concentrations of durian rind and carbon nanotubes at room condition and after aging. The performance of the fluid loss control additives was also tested in high temperature and high pressure conditions. Fine DR and Hydro-Pac R were tested using five concentrations varied from 0.6 to 1.0 ppb in water-based mud. The mud weight of those mud samples were maintained at 10 ppg. Rheological tests were carried out to determine the plastic viscosity, gel strength, and yield point while fluid loss test was to determine the volume of fluid loss under 100 psi of differential pressure and the mud cake thickness. Then the best concentration for each FLA from the fluid loss test was mixed with MWCNT of concentrations from 0.02 to 0.1 lb/bbl and repeated the rheological test and further investigated the fluid loss performance of the mixture in high pressure, high temperature condition. Overall, the fluid loss results indicated that the performance of drilling fluids with the presence of commercial additive, Hydro-Pac R was better than durian rind. The mixture of Hydro-Pac R with MWCNT produced better fluid loss control in low pressure low temperature (LPLT) filter press and high pressure and high pressure (HPHT) before and after aging process than DR with MWCNT. Science and Engineering Research Support Society 2020 Article PeerReviewed Ismail, A. S. I. and Zhi, N. L. and Ismail, I. and Issham, M. S. and Katende, A. (2020) Fluid loss mitigation via multi-wall carbon nanotubes-enriched water-based drilling fluid. International Journal of Advanced Science and Technology, 29 (3). pp. 2452-2464. ISSN 2005-4238
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 TP Chemical technology
spellingShingle TP Chemical technology
Ismail, A. S. I.
Zhi, N. L.
Ismail, I.
Issham, M. S.
Katende, A.
Fluid loss mitigation via multi-wall carbon nanotubes-enriched water-based drilling fluid
description Fluid loss is a common drilling problem that should be addressed immediately to prevent formation damage. The most efficient and easiest way to overcome fluid loss is by adding fluid loss control additives in drilling mud as fluid loss control additives can temporarily plug pores in the formations. In this study, combination of durian rind (DR) and multi-wall carbon nanotubes (MWCNT) was studied to increase the effectiveness of fluid loss control due to fibrous nature of DR and complex structure of MWCNT. This can reduce the durian waste and also the cost of fluid loss additives (FLAs). The objective of this study was to study the effect of MWCNT in Hydro-Pac R, a commercial fluid loss control additive and DR to control fluid loss in water-based mud by comparing the rheological and fluid loss properties at different concentrations of durian rind and carbon nanotubes at room condition and after aging. The performance of the fluid loss control additives was also tested in high temperature and high pressure conditions. Fine DR and Hydro-Pac R were tested using five concentrations varied from 0.6 to 1.0 ppb in water-based mud. The mud weight of those mud samples were maintained at 10 ppg. Rheological tests were carried out to determine the plastic viscosity, gel strength, and yield point while fluid loss test was to determine the volume of fluid loss under 100 psi of differential pressure and the mud cake thickness. Then the best concentration for each FLA from the fluid loss test was mixed with MWCNT of concentrations from 0.02 to 0.1 lb/bbl and repeated the rheological test and further investigated the fluid loss performance of the mixture in high pressure, high temperature condition. Overall, the fluid loss results indicated that the performance of drilling fluids with the presence of commercial additive, Hydro-Pac R was better than durian rind. The mixture of Hydro-Pac R with MWCNT produced better fluid loss control in low pressure low temperature (LPLT) filter press and high pressure and high pressure (HPHT) before and after aging process than DR with MWCNT.
format Article
author Ismail, A. S. I.
Zhi, N. L.
Ismail, I.
Issham, M. S.
Katende, A.
author_facet Ismail, A. S. I.
Zhi, N. L.
Ismail, I.
Issham, M. S.
Katende, A.
author_sort Ismail, A. S. I.
title Fluid loss mitigation via multi-wall carbon nanotubes-enriched water-based drilling fluid
title_short Fluid loss mitigation via multi-wall carbon nanotubes-enriched water-based drilling fluid
title_full Fluid loss mitigation via multi-wall carbon nanotubes-enriched water-based drilling fluid
title_fullStr Fluid loss mitigation via multi-wall carbon nanotubes-enriched water-based drilling fluid
title_full_unstemmed Fluid loss mitigation via multi-wall carbon nanotubes-enriched water-based drilling fluid
title_sort fluid loss mitigation via multi-wall carbon nanotubes-enriched water-based drilling fluid
publisher Science and Engineering Research Support Society
publishDate 2020
url http://eprints.utm.my/id/eprint/86636/
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