Effect of changing the height of final step of the stepped chute on the flow profile in stilling basin using the VOF method

Effect of changing the height of final step of the stepped chute on the flow profile in stilling basin using the VOF method

Abstract In this study, the effect of the geometry modification in the physical model (step height) on flow factors in the stilling basin is investigated numerically. The Navier–Stokes equations were used to solve the flow field; the Reynolds stress turbulence model was used to model Reynolds stress...

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Bibliographic Details
Main Authors: Peyman Pazooki, Amirmasoud Hamedi, Mohammadamin Torabi, Seyedmohammadjavad Zeidi, Hamidreza Vosoughifar
Format: Article
Language:English
Published: SpringerOpen 2020-07-01
Series:Applied Water Science
Subjects:
Stilling basin
CFD
Navier–stokes equations
Reynolds stress model
Sensitivity analysis
Turbulence models
Online Access:http://link.springer.com/article/10.1007/s13201-020-01262-8
id doaj-2d3c3e2f331b4d16a195337fe71e5ded
record_format Article
spelling doaj-2d3c3e2f331b4d16a195337fe71e5ded2020-11-25T03:01:14ZengSpringerOpenApplied Water Science2190-54872190-54952020-07-011071910.1007/s13201-020-01262-8Effect of changing the height of final step of the stepped chute on the flow profile in stilling basin using the VOF methodPeyman Pazooki0Amirmasoud Hamedi1Mohammadamin Torabi2Seyedmohammadjavad Zeidi3Hamidreza Vosoughifar4Department of Civil Engineering, Azad University South Branch of TehranDepartment of Civil and Environmental Engineering, Florida International UniversityDepartment of Civil and Environmental Engineering, Idaho State UniversityCollege of Engineering, University of South FloridaDepartment of Civil Engineering, Hawaii University at ManoaAbstract In this study, the effect of the geometry modification in the physical model (step height) on flow factors in the stilling basin is investigated numerically. The Navier–Stokes equations were used to solve the flow field; the Reynolds stress turbulence model was used to model Reynolds stresses, and the volume of fluid method was used to determine the surface flow profile. Momentum and turbulence equations have been solved by the finite volume method. The results indicate that when the height of the steps in the stilling basin increases, the flow depth increases, and eventually the flow velocity decreases. When the height of the steps decreases, the flow velocity increases, and the flow depth decreases. The results of the numerical model are in good enough agreement with experimental results.http://link.springer.com/article/10.1007/s13201-020-01262-8Stilling basinCFDNavier–stokes equationsReynolds stress modelSensitivity analysisTurbulence models
collection DOAJ
language English
format Article
sources DOAJ
author Peyman Pazooki
Amirmasoud Hamedi
Mohammadamin Torabi
Seyedmohammadjavad Zeidi
Hamidreza Vosoughifar
spellingShingle Peyman Pazooki
Amirmasoud Hamedi
Mohammadamin Torabi
Seyedmohammadjavad Zeidi
Hamidreza Vosoughifar
Effect of changing the height of final step of the stepped chute on the flow profile in stilling basin using the VOF method
Applied Water Science
Stilling basin
CFD
Navier–stokes equations
Reynolds stress model
Sensitivity analysis
Turbulence models
author_facet Peyman Pazooki
Amirmasoud Hamedi
Mohammadamin Torabi
Seyedmohammadjavad Zeidi
Hamidreza Vosoughifar
author_sort Peyman Pazooki
title Effect of changing the height of final step of the stepped chute on the flow profile in stilling basin using the VOF method
title_short Effect of changing the height of final step of the stepped chute on the flow profile in stilling basin using the VOF method
title_full Effect of changing the height of final step of the stepped chute on the flow profile in stilling basin using the VOF method
title_fullStr Effect of changing the height of final step of the stepped chute on the flow profile in stilling basin using the VOF method
title_full_unstemmed Effect of changing the height of final step of the stepped chute on the flow profile in stilling basin using the VOF method
title_sort effect of changing the height of final step of the stepped chute on the flow profile in stilling basin using the vof method
publisher SpringerOpen
series Applied Water Science
issn 2190-5487
2190-5495
publishDate 2020-07-01
description Abstract In this study, the effect of the geometry modification in the physical model (step height) on flow factors in the stilling basin is investigated numerically. The Navier–Stokes equations were used to solve the flow field; the Reynolds stress turbulence model was used to model Reynolds stresses, and the volume of fluid method was used to determine the surface flow profile. Momentum and turbulence equations have been solved by the finite volume method. The results indicate that when the height of the steps in the stilling basin increases, the flow depth increases, and eventually the flow velocity decreases. When the height of the steps decreases, the flow velocity increases, and the flow depth decreases. The results of the numerical model are in good enough agreement with experimental results.
topic Stilling basin
CFD
Navier–stokes equations
Reynolds stress model
Sensitivity analysis
Turbulence models
url http://link.springer.com/article/10.1007/s13201-020-01262-8
work_keys_str_mv AT peymanpazooki effectofchangingtheheightoffinalstepofthesteppedchuteontheflowprofileinstillingbasinusingthevofmethod
AT amirmasoudhamedi effectofchangingtheheightoffinalstepofthesteppedchuteontheflowprofileinstillingbasinusingthevofmethod
AT mohammadamintorabi effectofchangingtheheightoffinalstepofthesteppedchuteontheflowprofileinstillingbasinusingthevofmethod
AT seyedmohammadjavadzeidi effectofchangingtheheightoffinalstepofthesteppedchuteontheflowprofileinstillingbasinusingthevofmethod
AT hamidrezavosoughifar effectofchangingtheheightoffinalstepofthesteppedchuteontheflowprofileinstillingbasinusingthevofmethod
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