Numerical Simulation of Churn and Annular Transient Flows
| Main Author: | |
|---|---|
| Publication Date: | 2022 |
| Other Authors: | |
| Format: | Conference object |
| Language: | eng |
| Source: | Repositório Institucional da Udesc |
| dARK ID: | ark:/33523/001300000kbmc |
| Download full: | https://repositorio.udesc.br/handle/UDESC/3283 |
Summary: | © 2022, The Author(s), under exclusive license to Springer Nature Switzerland AG.Two-phase gas-liquid flows are often present in many applications. The correct simulation of these flows is crucial in industrial projects, which require detailed information about flow parameters, such as pressure gradient, void fraction, and heat transfer coefficients. Simulation of complex patterns, as churn and annular flow, have many simplifications. Most models for pattern and flow properties determination are based on empirical data, which have limited applications. Processes involved in these patterns are not completely understood, so mechanistic models usually are not satisfying. This work aims to investigate the churn and annular patterns, and the transition between them using a hybrid method, which couples a two-fluid model with the volume of fluid (VOF) with interfacial compression. Results obtained for void fraction and pressure gradient are compared to experimental data and the influence of the maximum Courant number in the simulations results is evaluated. The method allows the visualization of gas-liquid flow phenomena, such as the presence of liquid filaments in the gas core and interfacial disturbance waves. Simulations provide good results for the void fraction, with a maximum relative error of 6,39% compared to experiments. The pressure gradient in the flow is significantly overestimated, which may be a result of the simulation of an incomplete geometry, that does not represent the entire experimental test sections. |
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Numerical Simulation of Churn and Annular Transient Flows© 2022, The Author(s), under exclusive license to Springer Nature Switzerland AG.Two-phase gas-liquid flows are often present in many applications. The correct simulation of these flows is crucial in industrial projects, which require detailed information about flow parameters, such as pressure gradient, void fraction, and heat transfer coefficients. Simulation of complex patterns, as churn and annular flow, have many simplifications. Most models for pattern and flow properties determination are based on empirical data, which have limited applications. Processes involved in these patterns are not completely understood, so mechanistic models usually are not satisfying. This work aims to investigate the churn and annular patterns, and the transition between them using a hybrid method, which couples a two-fluid model with the volume of fluid (VOF) with interfacial compression. Results obtained for void fraction and pressure gradient are compared to experimental data and the influence of the maximum Courant number in the simulations results is evaluated. The method allows the visualization of gas-liquid flow phenomena, such as the presence of liquid filaments in the gas core and interfacial disturbance waves. Simulations provide good results for the void fraction, with a maximum relative error of 6,39% compared to experiments. The pressure gradient in the flow is significantly overestimated, which may be a result of the simulation of an incomplete geometry, that does not represent the entire experimental test sections.2024-12-05T23:02:11Z2022info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/conferenceObjectp. 343 - 3542190-302610.1007/978-3-031-08545-1_33https://repositorio.udesc.br/handle/UDESC/3283ark:/33523/001300000kbmcSmart Innovation, Systems and Technologies295 SISTSavagnago V.*Alves, Marcus Vinicius Canhotoengreponame:Repositório Institucional da Udescinstname:Universidade do Estado de Santa Catarina (UDESC)instacron:UDESCinfo:eu-repo/semantics/openAccess2024-12-07T20:41:18Zoai:repositorio.udesc.br:UDESC/3283Biblioteca Digital de Teses e Dissertaçõeshttps://pergamumweb.udesc.br/biblioteca/index.phpPRIhttps://repositorio-api.udesc.br/server/oai/requestri@udesc.bropendoar:63912024-12-07T20:41:18Repositório Institucional da Udesc - Universidade do Estado de Santa Catarina (UDESC)false |
| dc.title.none.fl_str_mv |
Numerical Simulation of Churn and Annular Transient Flows |
| title |
Numerical Simulation of Churn and Annular Transient Flows |
| spellingShingle |
Numerical Simulation of Churn and Annular Transient Flows Savagnago V.* |
| title_short |
Numerical Simulation of Churn and Annular Transient Flows |
| title_full |
Numerical Simulation of Churn and Annular Transient Flows |
| title_fullStr |
Numerical Simulation of Churn and Annular Transient Flows |
| title_full_unstemmed |
Numerical Simulation of Churn and Annular Transient Flows |
| title_sort |
Numerical Simulation of Churn and Annular Transient Flows |
| author |
Savagnago V.* |
| author_facet |
Savagnago V.* Alves, Marcus Vinicius Canhoto |
| author_role |
author |
| author2 |
Alves, Marcus Vinicius Canhoto |
| author2_role |
author |
| dc.contributor.author.fl_str_mv |
Savagnago V.* Alves, Marcus Vinicius Canhoto |
| description |
© 2022, The Author(s), under exclusive license to Springer Nature Switzerland AG.Two-phase gas-liquid flows are often present in many applications. The correct simulation of these flows is crucial in industrial projects, which require detailed information about flow parameters, such as pressure gradient, void fraction, and heat transfer coefficients. Simulation of complex patterns, as churn and annular flow, have many simplifications. Most models for pattern and flow properties determination are based on empirical data, which have limited applications. Processes involved in these patterns are not completely understood, so mechanistic models usually are not satisfying. This work aims to investigate the churn and annular patterns, and the transition between them using a hybrid method, which couples a two-fluid model with the volume of fluid (VOF) with interfacial compression. Results obtained for void fraction and pressure gradient are compared to experimental data and the influence of the maximum Courant number in the simulations results is evaluated. The method allows the visualization of gas-liquid flow phenomena, such as the presence of liquid filaments in the gas core and interfacial disturbance waves. Simulations provide good results for the void fraction, with a maximum relative error of 6,39% compared to experiments. The pressure gradient in the flow is significantly overestimated, which may be a result of the simulation of an incomplete geometry, that does not represent the entire experimental test sections. |
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2022 |
| dc.date.none.fl_str_mv |
2022 2024-12-05T23:02:11Z |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/conferenceObject |
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conferenceObject |
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publishedVersion |
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2190-3026 10.1007/978-3-031-08545-1_33 https://repositorio.udesc.br/handle/UDESC/3283 |
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ark:/33523/001300000kbmc |
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2190-3026 10.1007/978-3-031-08545-1_33 ark:/33523/001300000kbmc |
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https://repositorio.udesc.br/handle/UDESC/3283 |
| dc.language.iso.fl_str_mv |
eng |
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eng |
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Smart Innovation, Systems and Technologies 295 SIST |
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info:eu-repo/semantics/openAccess |
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openAccess |
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p. 343 - 354 |
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reponame:Repositório Institucional da Udesc instname:Universidade do Estado de Santa Catarina (UDESC) instacron:UDESC |
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Universidade do Estado de Santa Catarina (UDESC) |
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Repositório Institucional da Udesc |
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Repositório Institucional da Udesc - Universidade do Estado de Santa Catarina (UDESC) |
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