A simulation model for settling tanks with varying cross-sectional area

Raimund Bürger; Julio Careaga; Stefan Diehl

doi:10.1080/00986445.2017.1360871

A simulation model for settling tanks with varying cross-sectional area

Raimund Bürger, Julio Careaga, Stefan Diehl

Mathematics (Faculty of Engineering)

University of Concepción

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

Abstract

A quasi-one-dimensional model of the process of continuous sedimentation in clarifier-thickeners (settlers) with variable cross-sectional area is presented. The partial differential equation (PDE) model extends the settler model advanced by Bürger et al. (2013), which assumes a constant cross section. A reliable numerical method that handles the special features of the nonlinear PDE is presented along with an advantageous time-step condition for continuous and batch sedimentation under the condition of a variable cross-sectional area. Simulations of continuous sedimentation show the effect of change of cross-sectional area in the concentration inside the vessel and in the underflow. Simulations of batch settling in cones illustrate the versatility of the numerical scheme to include a vertex, where the area shrinks to zero.

Original language	English
Pages (from-to)	1270-1281
Journal	Chemical Engineering Communications
Volume	204
Issue number	11
Early online date	2017 Sept 5
DOIs	https://doi.org/10.1080/00986445.2017.1360871
Publication status	Published - 2017 Nov 2

Subject classification (UKÄ)

Computational Mathematics

Free keywords

Clarifier-thickener
continuous sedimentation
nonlinear conservation PDE
numerical method
secondary clarifier

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10.1080/00986445.2017.1360871

1 Doctoral Thesis (compilation)

Convection-diffusion-reaction models of sedimentation: Numerical approximation, analysis of solutions and inverse problems
Careaga, J., 2021 Sept 6, Lund, Sweden: Department of Mathematical Sciences, Lund University.
Research output: Thesis › Doctoral Thesis (compilation)

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abstract = "A quasi-one-dimensional model of the process of continuous sedimentation in clarifier-thickeners (settlers) with variable cross-sectional area is presented. The partial differential equation (PDE) model extends the settler model advanced by B{\"u}rger et al. (2013), which assumes a constant cross section. A reliable numerical method that handles the special features of the nonlinear PDE is presented along with an advantageous time-step condition for continuous and batch sedimentation under the condition of a variable cross-sectional area. Simulations of continuous sedimentation show the effect of change of cross-sectional area in the concentration inside the vessel and in the underflow. Simulations of batch settling in cones illustrate the versatility of the numerical scheme to include a vertex, where the area shrinks to zero.",

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T1 - A simulation model for settling tanks with varying cross-sectional area

AU - Bürger, Raimund

AU - Careaga, Julio

AU - Diehl, Stefan

PY - 2017/11/2

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N2 - A quasi-one-dimensional model of the process of continuous sedimentation in clarifier-thickeners (settlers) with variable cross-sectional area is presented. The partial differential equation (PDE) model extends the settler model advanced by Bürger et al. (2013), which assumes a constant cross section. A reliable numerical method that handles the special features of the nonlinear PDE is presented along with an advantageous time-step condition for continuous and batch sedimentation under the condition of a variable cross-sectional area. Simulations of continuous sedimentation show the effect of change of cross-sectional area in the concentration inside the vessel and in the underflow. Simulations of batch settling in cones illustrate the versatility of the numerical scheme to include a vertex, where the area shrinks to zero.

AB - A quasi-one-dimensional model of the process of continuous sedimentation in clarifier-thickeners (settlers) with variable cross-sectional area is presented. The partial differential equation (PDE) model extends the settler model advanced by Bürger et al. (2013), which assumes a constant cross section. A reliable numerical method that handles the special features of the nonlinear PDE is presented along with an advantageous time-step condition for continuous and batch sedimentation under the condition of a variable cross-sectional area. Simulations of continuous sedimentation show the effect of change of cross-sectional area in the concentration inside the vessel and in the underflow. Simulations of batch settling in cones illustrate the versatility of the numerical scheme to include a vertex, where the area shrinks to zero.

KW - Clarifier-thickener

KW - continuous sedimentation

KW - nonlinear conservation PDE

KW - numerical method

KW - secondary clarifier

U2 - 10.1080/00986445.2017.1360871

DO - 10.1080/00986445.2017.1360871

M3 - Article

AN - SCOPUS:85029685838

SN - 0098-6445

VL - 204

SP - 1270

EP - 1281

JO - Chemical Engineering Communications

JF - Chemical Engineering Communications

IS - 11

ER -

A simulation model for settling tanks with varying cross-sectional area

Abstract

Subject classification (UKÄ)

Free keywords

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Research output

Convection-diffusion-reaction models of sedimentation: Numerical approximation, analysis of solutions and inverse problems

Cite this