A conservative pressure based solver with collocated variables on unstructured grids for two-fluid flows with phase change

Numerical simulation of two-phase flows based on the two-fluid six-equation model is the focus of this work. This approach is widely used in thermo-hydraulics for many industrial applications, particularly nuclear power plant safety analysis. A semi-implicit numerical method that has been successful...

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Veröffentlicht in:	Journal of computational physics 2019-08, Vol.390, p.265-289
Hauptverfasser:	Zhang, Lei, Kumbaro, Anela, Ghidaglia, Jean-Michel
Format:	Artikel
Sprache:	eng
Schlagworte:	Computational fluid dynamics Computational physics Computer simulation Conservative scheme Fluid flow Hydraulics Industrial applications Mathematical models Mathematics Nuclear engineering Nuclear power plants Nuclear safety Numerical analysis Numerical methods Orthogonality Phase transitions Pressure-based semi-implicit method Robustness (mathematics) Shock waves Simulation Two phase flow Two-fluid six-equation model Two-phase flows Unstructured grids Unstructured grids (mathematics)
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container_title	Journal of computational physics
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creator	Zhang, Lei Kumbaro, Anela Ghidaglia, Jean-Michel
description	Numerical simulation of two-phase flows based on the two-fluid six-equation model is the focus of this work. This approach is widely used in thermo-hydraulics for many industrial applications, particularly nuclear power plant safety analysis. A semi-implicit numerical method that has been successfully adopted in several industrial thermo-hydraulic codes, because of its efficiency and robustness, has been extended. In this paper, the governing equations are solved on unstructured grids with collocated variables to accommodate complicated geometries, and a deferred-correction method is used to deal with the non-orthogonality of unstructured grids. In addition, the numerical method is conservative, meaning that it is capable of capturing a shock wave exactly in single-phase flows, and ensuring the conservation of physically conservative quantities of a two-phase flow mixture. Numerical benchmarks and industrial test cases are performed in order to validate the numerical method and to evaluate its behavior with respect to different physical configurations. •The two-fluid six-equation model was used to simulate two-phase flows.•A semi-implicit method was extended to unstructured grids with collocated variables.•A conservative scheme, that ensures the exact conservation of mass, momentum and total energy of a mixture, was developed.•Numerical benchmarks and industrial test cases were performed using a tabulated EOS.
doi_str_mv	10.1016/j.jcp.2019.04.007
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This approach is widely used in thermo-hydraulics for many industrial applications, particularly nuclear power plant safety analysis. A semi-implicit numerical method that has been successfully adopted in several industrial thermo-hydraulic codes, because of its efficiency and robustness, has been extended. In this paper, the governing equations are solved on unstructured grids with collocated variables to accommodate complicated geometries, and a deferred-correction method is used to deal with the non-orthogonality of unstructured grids. In addition, the numerical method is conservative, meaning that it is capable of capturing a shock wave exactly in single-phase flows, and ensuring the conservation of physically conservative quantities of a two-phase flow mixture. Numerical benchmarks and industrial test cases are performed in order to validate the numerical method and to evaluate its behavior with respect to different physical configurations. •The two-fluid six-equation model was used to simulate two-phase flows.•A semi-implicit method was extended to unstructured grids with collocated variables.•A conservative scheme, that ensures the exact conservation of mass, momentum and total energy of a mixture, was developed.•Numerical benchmarks and industrial test cases were performed using a tabulated EOS.</description><identifier>ISSN: 0021-9991</identifier><identifier>EISSN: 1090-2716</identifier><identifier>DOI: 10.1016/j.jcp.2019.04.007</identifier><language>eng</language><publisher>Cambridge: Elsevier Inc</publisher><subject>Computational fluid dynamics ; Computational physics ; Computer simulation ; Conservative scheme ; Fluid flow ; Hydraulics ; Industrial applications ; Mathematical models ; Mathematics ; Nuclear engineering ; Nuclear power plants ; Nuclear safety ; Numerical analysis ; Numerical methods ; Orthogonality ; Phase transitions ; Pressure-based semi-implicit method ; Robustness (mathematics) ; Shock waves ; Simulation ; Two phase flow ; Two-fluid six-equation model ; Two-phase flows ; Unstructured grids ; Unstructured grids (mathematics)</subject><ispartof>Journal of computational physics, 2019-08, Vol.390, p.265-289</ispartof><rights>2019 Elsevier Inc.</rights><rights>Copyright Elsevier Science Ltd. 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This approach is widely used in thermo-hydraulics for many industrial applications, particularly nuclear power plant safety analysis. A semi-implicit numerical method that has been successfully adopted in several industrial thermo-hydraulic codes, because of its efficiency and robustness, has been extended. In this paper, the governing equations are solved on unstructured grids with collocated variables to accommodate complicated geometries, and a deferred-correction method is used to deal with the non-orthogonality of unstructured grids. In addition, the numerical method is conservative, meaning that it is capable of capturing a shock wave exactly in single-phase flows, and ensuring the conservation of physically conservative quantities of a two-phase flow mixture. 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This approach is widely used in thermo-hydraulics for many industrial applications, particularly nuclear power plant safety analysis. A semi-implicit numerical method that has been successfully adopted in several industrial thermo-hydraulic codes, because of its efficiency and robustness, has been extended. In this paper, the governing equations are solved on unstructured grids with collocated variables to accommodate complicated geometries, and a deferred-correction method is used to deal with the non-orthogonality of unstructured grids. In addition, the numerical method is conservative, meaning that it is capable of capturing a shock wave exactly in single-phase flows, and ensuring the conservation of physically conservative quantities of a two-phase flow mixture. Numerical benchmarks and industrial test cases are performed in order to validate the numerical method and to evaluate its behavior with respect to different physical configurations. •The two-fluid six-equation model was used to simulate two-phase flows.•A semi-implicit method was extended to unstructured grids with collocated variables.•A conservative scheme, that ensures the exact conservation of mass, momentum and total energy of a mixture, was developed.•Numerical benchmarks and industrial test cases were performed using a tabulated EOS.</abstract><cop>Cambridge</cop><pub>Elsevier Inc</pub><doi>10.1016/j.jcp.2019.04.007</doi><tpages>25</tpages><oa>free_for_read</oa></addata></record>
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subjects	Computational fluid dynamics Computational physics Computer simulation Conservative scheme Fluid flow Hydraulics Industrial applications Mathematical models Mathematics Nuclear engineering Nuclear power plants Nuclear safety Numerical analysis Numerical methods Orthogonality Phase transitions Pressure-based semi-implicit method Robustness (mathematics) Shock waves Simulation Two phase flow Two-fluid six-equation model Two-phase flows Unstructured grids Unstructured grids (mathematics)
title	A conservative pressure based solver with collocated variables on unstructured grids for two-fluid flows with phase change
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