Global sensitivity analysis for phosphate slurry flow in pipelines using generalized polynomial chaos

Slurry transportation via pipelines has garnered growing attention across various industries worldwide, thanks to its efficiency and environmental friendliness. It has emerged as a vital tool for conveying significant volumes of raw phosphate material from extraction points to industrial plants, whe...

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Published in	Physics of fluids (1994) Vol. 35; no. 6
Main Authors	Elkarii, M., Boukharfane, R., Benjelloun, S., Bouallou, C., El Moçayd, N.
Format	Journal Article
Language	English
Published	Melville American Institute of Physics 01.06.2023
Subjects	Boundary conditions Computational fluid dynamics Computing costs Energy efficiency Engineering Sciences Fluid dynamics Industrial plants Mathematical models Parameter sensitivity Physical properties Physics Pipe flow Polynomials Pressure drop Random variables Sensitivity analysis Slurry pipelines Three dimensional flow Transportation Two phase flow Uncertainty
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Abstract	Slurry transportation via pipelines has garnered growing attention across various industries worldwide, thanks to its efficiency and environmental friendliness. It has emerged as a vital tool for conveying significant volumes of raw phosphate material from extraction points to industrial plants, where it is processed into fertilizers. Yet, optimal and secure pipeline operations necessitate the careful calibration of several physical parameters and their interplay to minimize energy losses. A thorough exploration of the flow pressure drop and the various factors that influence it constitutes a crucial step in attaining this goal. The computational fluid dynamics techniques required to simulate three-dimensional slurry pipe flows pose formidable challenges, primarily due to their high computational costs. Furthermore, numerical solutions for slurry flows are frequently subject to uncertainties arising from the initial and boundary conditions in the mathematical models employed. In this study, we propose the use of polynomial chaos expansions to estimate the uncertainty inherent in the desired slurry flow and perform a sensitivity analysis of flow energy efficiency. In this framework, five parameters are considered as random variables with a given probability distribution over a prescribed range of investigation. The uncertainty is then propagated through the two-phase flow model to statistically quantify their effect on the results. Our findings reveal that variations in slurry velocity and particle size play a pivotal role in determining energy efficiency. Therefore, controlling these factors represents a critical step in ensuring the efficient and safe transportation of slurry through pipelines.
AbstractList	Slurry transportation via pipelines has garnered growing attention across various industries worldwide, thanks to its efficiency and environmental friendliness. It has emerged as a vital tool for conveying significant volumes of raw phosphate material from extraction points to industrial plants, where it is processed into fertilizers. Yet, optimal and secure pipeline operations necessitate the careful calibration of several physical parameters and their interplay to minimize energy losses. A thorough exploration of the flow pressure drop and the various factors that influence it constitutes a crucial step in attaining this goal. The computational fluid dynamics techniques required to simulate three-dimensional slurry pipe flows pose formidable challenges, primarily due to their high computational costs. Furthermore, numerical solutions for slurry flows are frequently subject to uncertainties arising from the initial and boundary conditions in the mathematical models employed. In this study, we propose the use of polynomial chaos expansions to estimate the uncertainty inherent in the desired slurry flow and perform a sensitivity analysis of flow energy efficiency. In this framework, five parameters are considered as random variables with a given probability distribution over a prescribed range of investigation. The uncertainty is then propagated through the two-phase flow model to statistically quantify their effect on the results. Our findings reveal that variations in slurry velocity and particle size play a pivotal role in determining energy efficiency. Therefore, controlling these factors represents a critical step in ensuring the efficient and safe transportation of slurry through pipelines.
Author	Elkarii, M. Boukharfane, R. Benjelloun, S. El Moçayd, N. Bouallou, C.
Author_xml	– sequence: 1 givenname: M. surname: Elkarii fullname: Elkarii, M. organization: 3Mohammed VI Polytechnic University (UM6P), IAP-IWRI, Benguerir, Morocco – sequence: 2 givenname: R. surname: Boukharfane fullname: Boukharfane, R. organization: Mohammed VI Polytechnic University (UM6P) – sequence: 3 givenname: S. surname: Benjelloun fullname: Benjelloun, S. organization: Mohammed VI Polytechnic University (UM6P) – sequence: 4 givenname: C. surname: Bouallou fullname: Bouallou, C. organization: MINES ParisTech, PSL Research University, CES – sequence: 5 givenname: N. surname: El Moçayd fullname: El Moçayd, N. organization: Mohammed VI Polytechnic University (UM6P)
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Snippet	Slurry transportation via pipelines has garnered growing attention across various industries worldwide, thanks to its efficiency and environmental...
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SubjectTerms	Boundary conditions Computational fluid dynamics Computing costs Energy efficiency Engineering Sciences Fluid dynamics Industrial plants Mathematical models Parameter sensitivity Physical properties Physics Pipe flow Polynomials Pressure drop Random variables Sensitivity analysis Slurry pipelines Three dimensional flow Transportation Two phase flow Uncertainty
Title	Global sensitivity analysis for phosphate slurry flow in pipelines using generalized polynomial chaos
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