Analytical investigation of well/perforation scale effect on sand production of weakly consolidated sandstones

Analytical investigation of well/perforation scale effect on sand production of weakly consolidated sandstones

Investigating the risk of sand production is a common practice for developing unconsolidated and weakly consolidated reservoirs, particularly with designing the completion system of development wells. The risk of sanding may be different for open hole and cased and perforated completion systems. Par...

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Main Authors: Tehrani, S., Sarmadivaleh, Mohammad, Sinaki, Y., Mostofi, Masood, Bayati, Massoud
Format: Journal Article
Published: Media Dynamics 2016
Online Access:http://hdl.handle.net/20.500.11937/69863
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author Tehrani, S.
Sarmadivaleh, Mohammad
Sinaki, Y.
Mostofi, Masood
Bayati, Massoud
author_facet Tehrani, S.
Sarmadivaleh, Mohammad
Sinaki, Y.
Mostofi, Masood
Bayati, Massoud
author_sort Tehrani, S.
building Curtin Institutional Repository
collection Online Access
description Investigating the risk of sand production is a common practice for developing unconsolidated and weakly consolidated reservoirs, particularly with designing the completion system of development wells. The risk of sanding may be different for open hole and cased and perforated completion systems. Part of this difference is a result of the different size of the boreholes—that is, open hole versus perforation tunnels— which is known as borehole scale effect. The amount of research dedicated to investigate the borehole scale effect on sand production is very limited. Research has been carried out by conducting thick-walled cylinder (TWC) tests on samples with different inner to outer diameter ratios. The impacts of sample size and boundaries on the induced stresses around the borehole and failure were, however, not differentiated from the borehole scale effect. In this paper, a comprehensive analytical approach is performed to investigate the effect of the size of the sample and boundaries on TWC tests and borehole failure. To do this, four different failure criteria—Mohr-Coulomb, Drucker-Prager, Mogi and modified Lade—are compared with previously published experimental results. The analysis shows that the size of the sample and the boundaries may significantly change the TWC strength of the rock. The TWC changes by different inner to outer diameter ratios, however, may not be fully justified by the analytical approach. Hence, a scale effect factor must be introduced to replicate the experimental results.
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format Journal Article
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institution Curtin University Malaysia
institution_category Local University
last_indexed 2025-11-14T10:43:02Z
publishDate 2016
publisher Media Dynamics
recordtype eprints
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spelling curtin-20.500.11937-698632021-12-01T07:23:21Z Analytical investigation of well/perforation scale effect on sand production of weakly consolidated sandstones Tehrani, S. Sarmadivaleh, Mohammad Sinaki, Y. Mostofi, Masood Bayati, Massoud Investigating the risk of sand production is a common practice for developing unconsolidated and weakly consolidated reservoirs, particularly with designing the completion system of development wells. The risk of sanding may be different for open hole and cased and perforated completion systems. Part of this difference is a result of the different size of the boreholes—that is, open hole versus perforation tunnels— which is known as borehole scale effect. The amount of research dedicated to investigate the borehole scale effect on sand production is very limited. Research has been carried out by conducting thick-walled cylinder (TWC) tests on samples with different inner to outer diameter ratios. The impacts of sample size and boundaries on the induced stresses around the borehole and failure were, however, not differentiated from the borehole scale effect. In this paper, a comprehensive analytical approach is performed to investigate the effect of the size of the sample and boundaries on TWC tests and borehole failure. To do this, four different failure criteria—Mohr-Coulomb, Drucker-Prager, Mogi and modified Lade—are compared with previously published experimental results. The analysis shows that the size of the sample and the boundaries may significantly change the TWC strength of the rock. The TWC changes by different inner to outer diameter ratios, however, may not be fully justified by the analytical approach. Hence, a scale effect factor must be introduced to replicate the experimental results. 2016 Journal Article http://hdl.handle.net/20.500.11937/69863 10.1071/AJ15029 Media Dynamics restricted
spellingShingle Tehrani, S.
Sarmadivaleh, Mohammad
Sinaki, Y.
Mostofi, Masood
Bayati, Massoud
Analytical investigation of well/perforation scale effect on sand production of weakly consolidated sandstones
title Analytical investigation of well/perforation scale effect on sand production of weakly consolidated sandstones
title_full Analytical investigation of well/perforation scale effect on sand production of weakly consolidated sandstones
title_fullStr Analytical investigation of well/perforation scale effect on sand production of weakly consolidated sandstones
title_full_unstemmed Analytical investigation of well/perforation scale effect on sand production of weakly consolidated sandstones
title_short Analytical investigation of well/perforation scale effect on sand production of weakly consolidated sandstones
title_sort analytical investigation of well/perforation scale effect on sand production of weakly consolidated sandstones
url http://hdl.handle.net/20.500.11937/69863

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