CFD-based erosion modelling of sand screen using dense discrete phase model: Investigating carrier fluid type effect
Sand screens that are widely used in petroleum industry, can fail due to erosion. Since carrying fluid type can have a considerable effect on erosion, in this study, dense discrete phase model (DDPM) was utilized to model sand screen erosion using a CFD-based technique under air, water, and oil flow...
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Elsevier B.V.
2023
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oai:scholars.utp.edu.my:373822023-10-04T11:26:44Z http://scholars.utp.edu.my/id/eprint/37382/ CFD-based erosion modelling of sand screen using dense discrete phase model: Investigating carrier fluid type effect Abduljabbar, A. Eissa Mohyaldinn, M. Ridha, S. Younis, O. Saeed Alakbari, F. Sand screens that are widely used in petroleum industry, can fail due to erosion. Since carrying fluid type can have a considerable effect on erosion, in this study, dense discrete phase model (DDPM) was utilized to model sand screen erosion using a CFD-based technique under air, water, and oil flows with four different sand types. The results showed that, erosion was much greater in liquid flows than in air flows. For liquids flows, erosion increases as the uniformity and the sorting coefficients of sand decrease. It has been concluded that, when sand contains various sizes under a certain fluid type, the significance and contribution of particles related parameters on erosion depend on sorting and uniformity of the produced sand. © 2023 Elsevier B.V. 2023 Article NonPeerReviewed Abduljabbar, A. and Eissa Mohyaldinn, M. and Ridha, S. and Younis, O. and Saeed Alakbari, F. (2023) CFD-based erosion modelling of sand screen using dense discrete phase model: Investigating carrier fluid type effect. Advanced Powder Technology, 34 (9). ISSN 09218831 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85164235954&doi=10.1016%2fj.apt.2023.104144&partnerID=40&md5=16c8be83e2b5acd31e14a0ea92972bb4 10.1016/j.apt.2023.104144 10.1016/j.apt.2023.104144 10.1016/j.apt.2023.104144 |
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Sand screens that are widely used in petroleum industry, can fail due to erosion. Since carrying fluid type can have a considerable effect on erosion, in this study, dense discrete phase model (DDPM) was utilized to model sand screen erosion using a CFD-based technique under air, water, and oil flows with four different sand types. The results showed that, erosion was much greater in liquid flows than in air flows. For liquids flows, erosion increases as the uniformity and the sorting coefficients of sand decrease. It has been concluded that, when sand contains various sizes under a certain fluid type, the significance and contribution of particles related parameters on erosion depend on sorting and uniformity of the produced sand. © 2023 |
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Abduljabbar, A. Eissa Mohyaldinn, M. Ridha, S. Younis, O. Saeed Alakbari, F. |
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Abduljabbar, A. Eissa Mohyaldinn, M. Ridha, S. Younis, O. Saeed Alakbari, F. CFD-based erosion modelling of sand screen using dense discrete phase model: Investigating carrier fluid type effect |
author_facet |
Abduljabbar, A. Eissa Mohyaldinn, M. Ridha, S. Younis, O. Saeed Alakbari, F. |
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Abduljabbar, A. |
title |
CFD-based erosion modelling of sand screen using dense discrete phase model: Investigating carrier fluid type effect |
title_short |
CFD-based erosion modelling of sand screen using dense discrete phase model: Investigating carrier fluid type effect |
title_full |
CFD-based erosion modelling of sand screen using dense discrete phase model: Investigating carrier fluid type effect |
title_fullStr |
CFD-based erosion modelling of sand screen using dense discrete phase model: Investigating carrier fluid type effect |
title_full_unstemmed |
CFD-based erosion modelling of sand screen using dense discrete phase model: Investigating carrier fluid type effect |
title_sort |
cfd-based erosion modelling of sand screen using dense discrete phase model: investigating carrier fluid type effect |
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Elsevier B.V. |
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2023 |
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http://scholars.utp.edu.my/id/eprint/37382/ https://www.scopus.com/inward/record.uri?eid=2-s2.0-85164235954&doi=10.1016%2fj.apt.2023.104144&partnerID=40&md5=16c8be83e2b5acd31e14a0ea92972bb4 |
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