Enhancing the performance of xanthan gum in water-based mud systems using an environmentally friendly biopolymer
Abstract Xanthan gum is commonly used in drilling fluids to provide viscosity, solid suspension, and fluid-loss control. However, it is sensitive to high temperatures and not tolerant of field contaminants. This paper presents an experimental study on the effects of an eco-friendly biopolymer (diuta...
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doaj-04f1b0e8fabe48e6a6c9c18738c4dd3d2021-02-07T12:23:06ZengSpringerOpenJournal of Petroleum Exploration and Production Technology2190-05582190-05662020-02-011051933194810.1007/s13202-020-00837-0Enhancing the performance of xanthan gum in water-based mud systems using an environmentally friendly biopolymerEmmanuel U. Akpan0Godpower C. Enyi1Ghasem G. Nasr2Petroleum Technology and Spray Research Group, School of Computing Science and Engineering, University of SalfordPetroleum Technology and Spray Research Group, School of Computing Science and Engineering, University of SalfordPetroleum Technology and Spray Research Group, School of Computing Science and Engineering, University of SalfordAbstract Xanthan gum is commonly used in drilling fluids to provide viscosity, solid suspension, and fluid-loss control. However, it is sensitive to high temperatures and not tolerant of field contaminants. This paper presents an experimental study on the effects of an eco-friendly biopolymer (diutan gum) on xanthan gum (XC) in a water-based bentonite mud. Laboratory experiments were carried out for different compositions of the biopolymers in water-based bentonite muds formulated without salt and in water-based bentonite muds containing sodium chloride (NaCl). The rheological properties of the water-based bentonite muds formulated with XC (2 Ibm) and those of the water-based bentonite muds prepared using XC (1Ibm) and diutan gum (1Ibm) were measured using Model 1100 viscometer after aging at 25 °C, 100 °C, and 120 °C for 16 h. The API fluid loss and filter cake of the mud formulations were measured using HTHP filter press. The properties of the water-based bentonite muds containing only XC were compared with those of the water-based bentonite muds containing XC and diutan gum. Presented results show that combining diutan gum and xanthan gum in a ratio of 1:1 in a water-based bentonite mud enhances its performance with respect to fluid properties—apparent viscosity, gel strength, yield points, YP/PV ratio, LSRV, n, and K. The fluid formulations also showed favorable mud cake building characteristics. Experimental data also indicate a 16%, 19%, and 34% reduction in API fluid loss values for the water-based benitoite muds containing XC in the presence of diutan gum after aging at 25 °C, 100 °C, and 120 °C for 16 h, respectively. Experimental results also show that the water-based benitoite mud containing XC and diutan gum would cause less formation damage and was tolerant of contamination with a monovalent cation (Na+). The synergy of xanthan gum and diutan gum can, therefore, improve the performance of water-based drilling fluids.https://doi.org/10.1007/s13202-020-00837-0ViscosityFluid lossStability temperatureDrilling fluidOil-based mud |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Emmanuel U. Akpan Godpower C. Enyi Ghasem G. Nasr |
spellingShingle |
Emmanuel U. Akpan Godpower C. Enyi Ghasem G. Nasr Enhancing the performance of xanthan gum in water-based mud systems using an environmentally friendly biopolymer Journal of Petroleum Exploration and Production Technology Viscosity Fluid loss Stability temperature Drilling fluid Oil-based mud |
author_facet |
Emmanuel U. Akpan Godpower C. Enyi Ghasem G. Nasr |
author_sort |
Emmanuel U. Akpan |
title |
Enhancing the performance of xanthan gum in water-based mud systems using an environmentally friendly biopolymer |
title_short |
Enhancing the performance of xanthan gum in water-based mud systems using an environmentally friendly biopolymer |
title_full |
Enhancing the performance of xanthan gum in water-based mud systems using an environmentally friendly biopolymer |
title_fullStr |
Enhancing the performance of xanthan gum in water-based mud systems using an environmentally friendly biopolymer |
title_full_unstemmed |
Enhancing the performance of xanthan gum in water-based mud systems using an environmentally friendly biopolymer |
title_sort |
enhancing the performance of xanthan gum in water-based mud systems using an environmentally friendly biopolymer |
publisher |
SpringerOpen |
series |
Journal of Petroleum Exploration and Production Technology |
issn |
2190-0558 2190-0566 |
publishDate |
2020-02-01 |
description |
Abstract Xanthan gum is commonly used in drilling fluids to provide viscosity, solid suspension, and fluid-loss control. However, it is sensitive to high temperatures and not tolerant of field contaminants. This paper presents an experimental study on the effects of an eco-friendly biopolymer (diutan gum) on xanthan gum (XC) in a water-based bentonite mud. Laboratory experiments were carried out for different compositions of the biopolymers in water-based bentonite muds formulated without salt and in water-based bentonite muds containing sodium chloride (NaCl). The rheological properties of the water-based bentonite muds formulated with XC (2 Ibm) and those of the water-based bentonite muds prepared using XC (1Ibm) and diutan gum (1Ibm) were measured using Model 1100 viscometer after aging at 25 °C, 100 °C, and 120 °C for 16 h. The API fluid loss and filter cake of the mud formulations were measured using HTHP filter press. The properties of the water-based bentonite muds containing only XC were compared with those of the water-based bentonite muds containing XC and diutan gum. Presented results show that combining diutan gum and xanthan gum in a ratio of 1:1 in a water-based bentonite mud enhances its performance with respect to fluid properties—apparent viscosity, gel strength, yield points, YP/PV ratio, LSRV, n, and K. The fluid formulations also showed favorable mud cake building characteristics. Experimental data also indicate a 16%, 19%, and 34% reduction in API fluid loss values for the water-based benitoite muds containing XC in the presence of diutan gum after aging at 25 °C, 100 °C, and 120 °C for 16 h, respectively. Experimental results also show that the water-based benitoite mud containing XC and diutan gum would cause less formation damage and was tolerant of contamination with a monovalent cation (Na+). The synergy of xanthan gum and diutan gum can, therefore, improve the performance of water-based drilling fluids. |
topic |
Viscosity Fluid loss Stability temperature Drilling fluid Oil-based mud |
url |
https://doi.org/10.1007/s13202-020-00837-0 |
work_keys_str_mv |
AT emmanueluakpan enhancingtheperformanceofxanthanguminwaterbasedmudsystemsusinganenvironmentallyfriendlybiopolymer AT godpowercenyi enhancingtheperformanceofxanthanguminwaterbasedmudsystemsusinganenvironmentallyfriendlybiopolymer AT ghasemgnasr enhancingtheperformanceofxanthanguminwaterbasedmudsystemsusinganenvironmentallyfriendlybiopolymer |
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