Numerical prediction of deposition in two-phase flow in vertical pipes

Xuan Li; Yap Yit Fatt; Afshin Goharzadeh; John C. Chai; Ming Zhang

doi:10.18280/ijht.390108

Numerical prediction of deposition in two-phase flow in vertical pipes

Xuan Li, Yap Yit Fatt, Afshin Goharzadeh, John C. Chai, Ming Zhang

Research output: Contribution to journal › Article › peer-review

Abstract

This article presents a model for particle deposition in two-phase flow in vertical pipes. There are three interacting modules in the model: Fluid Transport to predict velocity and pressure, Particle Transport to predict particle distribution and Particle Deposition to predict actual attachment of particles onto surfaces. Derivation of the governing equations is presented with the numerical solution procedure outlined. For verification, limiting cases with known solutions are considered. For validations, two-phase flows without deposition are considered. Upon verifications and validations, the model is employed to investigate particle deposition in two-phase flow with different flow patterns in both constant and variable cross section pipes, directly demonstrated the need to account for finite deposit thickness.

Original language	English
Pages (from-to)	73-88
Number of pages	16
Journal	International Journal of Heat and Technology
Volume	39
Issue number	1
DOIs	https://doi.org/10.18280/ijht.390108
Publication status	Published - Feb 2021
Externally published	Yes

Keywords

Deposition
Two-phase flow
Vertical pipe

ASJC Scopus subject areas

Condensed Matter Physics
Mechanical Engineering
Fluid Flow and Transfer Processes

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10.18280/ijht.390108

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title = "Numerical prediction of deposition in two-phase flow in vertical pipes",

abstract = "This article presents a model for particle deposition in two-phase flow in vertical pipes. There are three interacting modules in the model: Fluid Transport to predict velocity and pressure, Particle Transport to predict particle distribution and Particle Deposition to predict actual attachment of particles onto surfaces. Derivation of the governing equations is presented with the numerical solution procedure outlined. For verification, limiting cases with known solutions are considered. For validations, two-phase flows without deposition are considered. Upon verifications and validations, the model is employed to investigate particle deposition in two-phase flow with different flow patterns in both constant and variable cross section pipes, directly demonstrated the need to account for finite deposit thickness.",

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author = "Xuan Li and Fatt, {Yap Yit} and Afshin Goharzadeh and Chai, {John C.} and Ming Zhang",

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T1 - Numerical prediction of deposition in two-phase flow in vertical pipes

AU - Li, Xuan

AU - Fatt, Yap Yit

AU - Goharzadeh, Afshin

AU - Chai, John C.

AU - Zhang, Ming

PY - 2021/2

Y1 - 2021/2

N2 - This article presents a model for particle deposition in two-phase flow in vertical pipes. There are three interacting modules in the model: Fluid Transport to predict velocity and pressure, Particle Transport to predict particle distribution and Particle Deposition to predict actual attachment of particles onto surfaces. Derivation of the governing equations is presented with the numerical solution procedure outlined. For verification, limiting cases with known solutions are considered. For validations, two-phase flows without deposition are considered. Upon verifications and validations, the model is employed to investigate particle deposition in two-phase flow with different flow patterns in both constant and variable cross section pipes, directly demonstrated the need to account for finite deposit thickness.

AB - This article presents a model for particle deposition in two-phase flow in vertical pipes. There are three interacting modules in the model: Fluid Transport to predict velocity and pressure, Particle Transport to predict particle distribution and Particle Deposition to predict actual attachment of particles onto surfaces. Derivation of the governing equations is presented with the numerical solution procedure outlined. For verification, limiting cases with known solutions are considered. For validations, two-phase flows without deposition are considered. Upon verifications and validations, the model is employed to investigate particle deposition in two-phase flow with different flow patterns in both constant and variable cross section pipes, directly demonstrated the need to account for finite deposit thickness.

KW - Deposition

KW - Two-phase flow

KW - Vertical pipe

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Numerical prediction of deposition in two-phase flow in vertical pipes

Abstract

Keywords

ASJC Scopus subject areas

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