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Flow of the Bingham-Papanastasiou Regularized Material in a Channel in the Presence of Obstacles: Correlation between Hydrodynamic Forces and Spacing of Obstacles
The numerical modeling and simulation for the stationary Bingham fluid flow around two confined circular cylinders with various gap ratios are studied. The singularity in the model’s apparent viscosity is dealt by Papanastasiou’s regularization. The model equations are discretized by adopting the me...
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| Published in: | Modelling and simulation in engineering 2021, Vol.2021, p.1-14 |
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| creator | Mehmood, Asif Mahmood, Rashid Majeed, Afraz Hussain Awan, Farah Jabeen |
| description | The numerical modeling and simulation for the stationary Bingham fluid flow around two confined circular cylinders with various gap ratios are studied. The singularity in the model’s apparent viscosity is dealt by Papanastasiou’s regularization. The model equations are discretized by adopting the methodology based on finite element method (FEM) by choosing a mixed higher order LBB-stable P2−P1 finite element pair. The direct solver PARADISO has been utilized to solve the linearized system of equations. Hydrodynamic forces represented by drag and lift coefficients are computed, and a correlation coefficient is calculated for the gap ratios 0.1≤Gp≤0.3 and for several values of the Bingham number 0≤Bn≤50. Line graphs for horizontal and vertical velocities are drawn. Moreover, velocity and pressure profiles are plotted for pertinent values of the parameters. Plug and shear zones are revealed via velocity snapshots in the domain. Pressure is nonlinear in the vicinity of the obstacles and becomes linear downstream in the cylinders as expected in channel flows. |
| doi_str_mv | 10.1155/2021/5583110 |
| format | article |
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The singularity in the model’s apparent viscosity is dealt by Papanastasiou’s regularization. The model equations are discretized by adopting the methodology based on finite element method (FEM) by choosing a mixed higher order LBB-stable P2−P1 finite element pair. The direct solver PARADISO has been utilized to solve the linearized system of equations. Hydrodynamic forces represented by drag and lift coefficients are computed, and a correlation coefficient is calculated for the gap ratios 0.1≤Gp≤0.3 and for several values of the Bingham number 0≤Bn≤50. Line graphs for horizontal and vertical velocities are drawn. Moreover, velocity and pressure profiles are plotted for pertinent values of the parameters. Plug and shear zones are revealed via velocity snapshots in the domain. Pressure is nonlinear in the vicinity of the obstacles and becomes linear downstream in the cylinders as expected in channel flows.</description><identifier>ISSN: 1687-5591</identifier><identifier>EISSN: 1687-5605</identifier><identifier>DOI: 10.1155/2021/5583110</identifier><language>eng</language><publisher>New York: Hindawi</publisher><subject>Aerodynamic coefficients ; Barriers ; Channel flow ; Circular cylinders ; Computational fluid dynamics ; Correlation coefficients ; Finite element analysis ; Finite element method ; Fluid flow ; Mathematical models ; Non-Newtonian fluids ; Partial differential equations ; Regularization ; Reynolds number ; Rheology ; Shear zone ; Viscosity ; Yield stress</subject><ispartof>Modelling and simulation in engineering, 2021, Vol.2021, p.1-14</ispartof><rights>Copyright © 2021 Asif Mehmood et al.</rights><rights>Copyright © 2021 Asif Mehmood et al. This is an open access article distributed under the Creative Commons Attribution License (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. 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The singularity in the model’s apparent viscosity is dealt by Papanastasiou’s regularization. The model equations are discretized by adopting the methodology based on finite element method (FEM) by choosing a mixed higher order LBB-stable P2−P1 finite element pair. The direct solver PARADISO has been utilized to solve the linearized system of equations. Hydrodynamic forces represented by drag and lift coefficients are computed, and a correlation coefficient is calculated for the gap ratios 0.1≤Gp≤0.3 and for several values of the Bingham number 0≤Bn≤50. Line graphs for horizontal and vertical velocities are drawn. Moreover, velocity and pressure profiles are plotted for pertinent values of the parameters. Plug and shear zones are revealed via velocity snapshots in the domain. Pressure is nonlinear in the vicinity of the obstacles and becomes linear downstream in the cylinders as expected in channel flows.</abstract><cop>New York</cop><pub>Hindawi</pub><doi>10.1155/2021/5583110</doi><tpages>14</tpages><orcidid>https://orcid.org/0000-0002-1012-0781</orcidid><oa>free_for_read</oa></addata></record> |
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| ispartof | Modelling and simulation in engineering, 2021, Vol.2021, p.1-14 |
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| source | Wiley Online Library Open Access; Publicly Available Content (ProQuest) |
| subjects | Aerodynamic coefficients Barriers Channel flow Circular cylinders Computational fluid dynamics Correlation coefficients Finite element analysis Finite element method Fluid flow Mathematical models Non-Newtonian fluids Partial differential equations Regularization Reynolds number Rheology Shear zone Viscosity Yield stress |
| title | Flow of the Bingham-Papanastasiou Regularized Material in a Channel in the Presence of Obstacles: Correlation between Hydrodynamic Forces and Spacing of Obstacles |
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