Performance evaluation of surfactant enhanced nanomaterial as efficient water based mud additive

Increasing world’s demand of hydrocarbon and recent exploration into deepwater reservoir or complex formation causes stability and effectiveness of conventional drilling fluids to be affected as it tends to undergo deterioration such as gelation, degradation, and breakdown of polymeric additives und...

Full description

Bibliographic Details
Main Author: Nagayan, Buwaneswari
Format: Thesis
Language:English
Published: 2019
Subjects:
Online Access:http://eprints.utm.my/92083/1/BuwaneswariNagayanMSChE2019.pdf
_version_ 1796865354395287552
author Nagayan, Buwaneswari
author_facet Nagayan, Buwaneswari
author_sort Nagayan, Buwaneswari
collection ePrints
description Increasing world’s demand of hydrocarbon and recent exploration into deepwater reservoir or complex formation causes stability and effectiveness of conventional drilling fluids to be affected as it tends to undergo deterioration such as gelation, degradation, and breakdown of polymeric additives under High Pressure and High Temperature (HPHT) condition. The emergence of nanotechnology has promise high efficient drilling fluids as the nanoparticles adopt well with a wide range of operating conditions. Yet, the stability of nanoparticles in aqueous phase still a major concern due to reagglomeration effect even after high mechanical shearing. Applying electrostatic repulsion force in nanofluid believed to increase dispersion stability. Relatively, surfactant based dispersion is preferred where nanosilica as a negatively charged nanoparticle dispersed in an anionic surfactant known as Sodium Dodecyl Sulphate, SDS to increase electrostatic repulsion between negatively charged molecules for higher stability. Thus, this study is aim to investigate the performance of nanoparticle in presence of surfactant in water based mud in comparison with ultrasonic dispersed nanofluid mud and conventional Polyanionic Cellulose, PAC mud. Nanosilica has better filtration properties and been used as fluid loss control additive in various experiments especially in High Pressure and High Temperature environment. The methodology of this study initially focused into stability investigation of surfactant enhanced nanofluid by measuring the zeta potential value followed by performance evaluation of nanosilica drilling fluid in optimum concentration of SDS by analysing rheological and filtration properties in both ambient and HPHT condition. Experimental analysis shows that surfactant enhanced nano drilling fluid shows higher zeta potential value and exhibit higher dispersion and stability compared to non-surfactant nano drilling fluid and PAC mud. Thus, it shows better rheological and filtration properties especially at HPHT compared to conventional mud. Surfactant added nano drilling fluid able to control fluid loss around 20-30%, reduce mud cake thickness about 25% compared to PAC mud in HPHT condition. The completion of this study promised better nano drilling fluid formulation for efficient and smooth drilling operation by reduced rig time and cost involved.
first_indexed 2024-03-05T20:55:42Z
format Thesis
id utm.eprints-92083
institution Universiti Teknologi Malaysia - ePrints
language English
last_indexed 2024-03-05T20:55:42Z
publishDate 2019
record_format dspace
spelling utm.eprints-920832021-08-30T05:10:02Z http://eprints.utm.my/92083/ Performance evaluation of surfactant enhanced nanomaterial as efficient water based mud additive Nagayan, Buwaneswari TP Chemical technology Increasing world’s demand of hydrocarbon and recent exploration into deepwater reservoir or complex formation causes stability and effectiveness of conventional drilling fluids to be affected as it tends to undergo deterioration such as gelation, degradation, and breakdown of polymeric additives under High Pressure and High Temperature (HPHT) condition. The emergence of nanotechnology has promise high efficient drilling fluids as the nanoparticles adopt well with a wide range of operating conditions. Yet, the stability of nanoparticles in aqueous phase still a major concern due to reagglomeration effect even after high mechanical shearing. Applying electrostatic repulsion force in nanofluid believed to increase dispersion stability. Relatively, surfactant based dispersion is preferred where nanosilica as a negatively charged nanoparticle dispersed in an anionic surfactant known as Sodium Dodecyl Sulphate, SDS to increase electrostatic repulsion between negatively charged molecules for higher stability. Thus, this study is aim to investigate the performance of nanoparticle in presence of surfactant in water based mud in comparison with ultrasonic dispersed nanofluid mud and conventional Polyanionic Cellulose, PAC mud. Nanosilica has better filtration properties and been used as fluid loss control additive in various experiments especially in High Pressure and High Temperature environment. The methodology of this study initially focused into stability investigation of surfactant enhanced nanofluid by measuring the zeta potential value followed by performance evaluation of nanosilica drilling fluid in optimum concentration of SDS by analysing rheological and filtration properties in both ambient and HPHT condition. Experimental analysis shows that surfactant enhanced nano drilling fluid shows higher zeta potential value and exhibit higher dispersion and stability compared to non-surfactant nano drilling fluid and PAC mud. Thus, it shows better rheological and filtration properties especially at HPHT compared to conventional mud. Surfactant added nano drilling fluid able to control fluid loss around 20-30%, reduce mud cake thickness about 25% compared to PAC mud in HPHT condition. The completion of this study promised better nano drilling fluid formulation for efficient and smooth drilling operation by reduced rig time and cost involved. 2019 Thesis NonPeerReviewed application/pdf en http://eprints.utm.my/92083/1/BuwaneswariNagayanMSChE2019.pdf Nagayan, Buwaneswari (2019) Performance evaluation of surfactant enhanced nanomaterial as efficient water based mud additive. Masters thesis, Universiti Teknologi Malaysia, Faculty of Engineering - School of Chemical & Energy Engineering. http://dms.library.utm.my:8080/vital/access/manager/Repository/vital:139148
spellingShingle TP Chemical technology
Nagayan, Buwaneswari
Performance evaluation of surfactant enhanced nanomaterial as efficient water based mud additive
title Performance evaluation of surfactant enhanced nanomaterial as efficient water based mud additive
title_full Performance evaluation of surfactant enhanced nanomaterial as efficient water based mud additive
title_fullStr Performance evaluation of surfactant enhanced nanomaterial as efficient water based mud additive
title_full_unstemmed Performance evaluation of surfactant enhanced nanomaterial as efficient water based mud additive
title_short Performance evaluation of surfactant enhanced nanomaterial as efficient water based mud additive
title_sort performance evaluation of surfactant enhanced nanomaterial as efficient water based mud additive
topic TP Chemical technology
url http://eprints.utm.my/92083/1/BuwaneswariNagayanMSChE2019.pdf
work_keys_str_mv AT nagayanbuwaneswari performanceevaluationofsurfactantenhancednanomaterialasefficientwaterbasedmudadditive