Investigating the efficacy of novel organoclay as a rheological additive for enhancing the performance of oil-based drilling fluids

Mahmoud, Ali; Gajbhiye, Rahul; Elkatatny, Salaheldin

doi:10.1038/s41598-024-55246-8

Sci Rep

2024

DOI: 10.1038/s41598-024-55246-8

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Investigating the efficacy of novel organoclay as a rheological additive for enhancing the performance of oil-based drilling fluids

Ali Mahmoud,

Rahul Gajbhiye,

Salaheldin Elkatatny

Abstract: Oil-based drilling fluids (OBDFs) are extensively used in the drilling industry due to their superior performance in challenging drilling conditions. These fluids control wellbore stability, lubricate the drill bit, and transport drill cuttings to the surface. One important component of oil-based drilling fluids is the viscosifier, which provides rheological properties to enhance drilling operations. This study evaluates the effectiveness of Claytone-IMG 400, a novel rheological agent, in enhancing the perform… Show more

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Cited by 2 publications

References 56 publications

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A critical review of life cycle assessment and environmental impact of the well drilling process

Ghasemi,

Akbari,

Jahani

et al. 2024

Can J Chem Eng

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Life cycle assessment (LCA) is a robust tool for evaluating the environmental impacts of products, processes, and systems throughout their entire life cycle. This article presents a comprehensive investigation into the potential of LCA in drilling methods. The growing emphasis on sustainable and environmentally responsible drilling practices is becoming a critical concern in the drilling industry. As demand for natural resources continues to rise, the need for accurate assessments of the environmental impacts associated with various drilling methods becomes increasingly essential. LCA offers a holistic perspective on all key stages of the drilling industry, providing reliable data and serving as a valuable resource for informed decision‐making aimed at promoting sustainable and optimized drilling techniques. This article delves into the challenges and complexities surrounding LCA evaluations in the context of drilling operations. It underscores the importance of LCA in enhancing the management of drilling cuttings, waste, and surplus materials generated during drilling activities, as well as the effective handling of drilling mud. Additionally, it highlights the critical issue of groundwater contamination resulting from drilling operations. By presenting a holistic view of the life cycle of drilling products and processes, the article offers practical insights into improving and optimizing drilling techniques and waste management strategies. Moreover, the article examines the challenges and potential solutions associated with implementing LCA in these areas. It aims to support responsible and informed decision‐making, ultimately leading to improved drilling performance and enhanced environmental management.

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A critical review of life cycle assessment and environmental impact of the well drilling process

Ghasemi,

Akbari,

Jahani

et al. 2024

Can J Chem Eng

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Chitin-Based Amphiphobic Nanocomposites for Maintaining Wellbore Stability of Oil-Based Drilling Fluid

Du,

Lv,

et al. 2024

ACS Appl. Nano Mater.

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Drilling fluid additives that maintain wellbore stability have attracted considerable attention because of the frequent occurrence of wellbore instability accidents during drilling operations. However, achieving long-term wellbore stability in practical applications remains challenging. Herein, we report the application of chitin-based amphiphobic nanocomposites (PFTMS@ChNCs/SiO 2 ) to maintain the wellbore stability of oil-based drilling fluids (ODFs). The PFTMS@ChNCs/SiO 2 was prepared using a template approach, generating silica shells on the surface of chitin nanocrystals via the sol−gel method, followed by modification with 1H,1H,2H,2Hperfluorooctyltrimethoxysilane (PFTMS). The PFTMS@ChNCs/SiO 2 exhibited excellent thermal and chemical stability; even after heating in hot air at 200 °C for 24 h or soaking in hot fluids at 150 °C for 7 d, the contact angle of water and oil on the PFTMS@ChNCs/SiO 2 remained above 120°, making them suitable for the harsh drilling fluid conditions. The shale treated with PFTMS@ChNCs/SiO 2 demonstrated remarkable liquid-repelling properties and maintained good mechanical strength even after prolonged immersion in hightemperature fluids. Moreover, incorporating PFTMS@ChNCs/SiO 2 into ODFs improved their performance, including enhanced rheological properties, better filtration control, and improved mud cake quality. Filtration tests showed a 39.6% reduction in fluid loss, whereas the filtration medium permeability decreased to 0.211 × 10 −4 mD. This study presents a promising method for wellbore stabilization in ODFs and a direction for chitin nanocrystals in oil and gas engineering applications.

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Investigating the efficacy of novel organoclay as a rheological additive for enhancing the performance of oil-based drilling fluids

Cited by 2 publications

References 56 publications

A critical review of life cycle assessment and environmental impact of the well drilling process

A critical review of life cycle assessment and environmental impact of the well drilling process

Chitin-Based Amphiphobic Nanocomposites for Maintaining Wellbore Stability of Oil-Based Drilling Fluid

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