Silicate-Based Fluid, Mud Recovery System Combine to Stabilize Surface Formations of Azeri Wells

Alford, Susan E.; Askø, Arne; Campbell, M.; Aston, Mark; Kvalvaag, Edvin

doi:10.2118/92769-ms

Cited by 11 publications

(3 citation statements)

References 12 publications

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“…This generates an osmotic pressure driving osmotic flow of waters across the silicates membrane from the shale to the drilling fluid. Although the amount of water is minimal, this process will dehydrate the near-wellbore shale effectively because dehydration leads to larger near wellbore effective stresses and an increase in shale strength, both of which are beneficial to stability (Alford et al, 2005).  Ion Exchange: an additional advantage of monovalent ions such as K + is that they can be exchanged by Ca 2+ and Mg 2+ at the clay surface, making these ions available to precipitate.…”

Section: Silicatesmentioning

confidence: 99%

A review on borehole instability in active shale formations: Interactions, mechanisms and inhibitors

Gholami

Elochukwu

Fakhari

et al. 2018

Earth-Science Reviews

209

106

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Shale formations are known for their chemical interactions with water based muds which may result in swelling, bit balling or even closure of the wellbore. As a result, eco-friendly water based fluids with inhibitive characteristics are required for drilling through shale formations. The aim of this study is to provide a deeper insight into drilling through shale formations by providing few approaches for different circumstances. Many inhibitors developed so far are introduced with their mechanism of shale inhibition presented. It appears that silicate based muds and thermally activated mud emulsion (TAME) are the best option to mitigate shale related issues, but more studies are required to provide a permanent solution for this very complicated issue, especially under HPHT conditions.

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Section: Silicatesmentioning

confidence: 99%

A review on borehole instability in active shale formations: Interactions, mechanisms and inhibitors

Gholami

Elochukwu

Fakhari

et al. 2018

Earth-Science Reviews

209

106

View full text Add to dashboard Cite

show abstract

“…This generates an osmotic pressure driving osmotic flow of waters across the silicates membrane from formations to the drilling fluid. Although the amount of water involved is minimal, this process will dehydrate the near-wellbores shale effectively: dehydration leads to larger near wellbore effective stresses and an increase in shale strength, both of which are beneficial to stability (Alford et al, 2005).…”

Section: Silicate Based Mudsmentioning

confidence: 99%

An approach to improve the cuttings carrying capacity of nanosilica based muds

Elochukwu

Gholami

Dol

2017

Journal of Petroleum Science and Engineering

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Rheological and filtration properties of water based muds play vital roles in having a good drilling efficiency through hostile and harsh environments. However, there are many occasions in which controlling the variation of mud properties due to disintegration of additives is barely possible resulting in stuck pipe, kick incident or even loss of wells. The aim of this study is to propose an approach to enhance filtration characteristics of water based muds using nanoparticle additives. The results obtained from zeta potential measurements indicated that bentonite and nanosilica particles are both negatively charged with the values of-28 mV and-27 mV at the pH of 8 respectively. Evaluating rheological parameters of different mud samples revealed that the unmodified nanosilica causes reduction in the yield point of the samples rising concerns in the cuttings carrying capacity of drilling fluids. This issue was resolved by modifying the surface charge of nanosilica using a cationic surfactant. Filtration tests conducted under LPLT and HPHT conditions indicated that adding modified nanosilica into the mud samples results in formation of a thin and low permeability filter cake which can be a great asset in drilling through high permeable and small pore throat formations.

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“…This creates an osmotic pressure, which drives osmotic movement of water from the formations to the drilling mud over the silicate barrier. Despite the small amount of water involved, this method effectively dehydrates the near wellbore: Dehydration results in increased near-wellbore effective stresses and shale strength, both of which are helpful to stability (Alford et al, 2005).…”

Section: Applicationsmentioning

confidence: 99%

Designing Smart drilling fluids using modified nano silica to improve drilling operations in Geothermal wells

et al. 2023

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Silicate-Based Fluid, Mud Recovery System Combine to Stabilize Surface Formations of Azeri Wells

Cited by 11 publications

References 12 publications

A review on borehole instability in active shale formations: Interactions, mechanisms and inhibitors

A review on borehole instability in active shale formations: Interactions, mechanisms and inhibitors

An approach to improve the cuttings carrying capacity of nanosilica based muds

Designing Smart drilling fluids using modified nano silica to improve drilling operations in Geothermal wells

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