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High resolution 2D CFD solver based on normalized variable formulation

The study of systems involving fluid flow, heat transfer and associated phenomena using computers is termed as computational fluid dynamics (CFD). The governing equations that define fluid flow phenomena are solved for specific problems using CFD codes. CFD codes comprise three main elements which a...

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Main Authors: Perumal S.V., Yusoff M.Z.
Other Authors: 36069964900
Format: Conference paper
Published: 2023
Subjects:
Normalization
Solver
Turbulence
Computer science
Research
Three dimensional
Turbulent flow
3D codes
Boundedness
CFD codes
CFD solver
Complex geometries
Discretizations
Flow equations
Flow variable
Fluid flow
Governing equations
High resolution
Intermittency
Literature reviews
Numerical discretization
Post-processor
Preprocessors
Programming technique
Recirculations
Research methodologies
Source codes
Specific problems
Test runs
Unstructured meshes
Variable formulation
Computational fluid dynamics
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spelling my.uniten.dspace-307732023-12-29T15:53:02Z High resolution 2D CFD solver based on normalized variable formulation Perumal S.V. Yusoff M.Z. 36069964900 7003976733 Normalization Solver Turbulence Computer science Research Three dimensional Turbulence Turbulent flow 3D codes Boundedness CFD codes CFD solver Complex geometries Discretizations Flow equations Flow variable Fluid flow Governing equations High resolution Intermittency Literature reviews Normalization Numerical discretization Post-processor Preprocessors Programming technique Recirculations Research methodologies Source codes Specific problems Test runs Unstructured meshes Variable formulation Computational fluid dynamics The study of systems involving fluid flow, heat transfer and associated phenomena using computers is termed as computational fluid dynamics (CFD). The governing equations that define fluid flow phenomena are solved for specific problems using CFD codes. CFD codes comprise three main elements which are preprocessor, solver and postprocessor. The main concern of this research is the solver element. The solver uses information from the preprocessing stage to approximate unknown flow variables by means of functions, discretize governing flow equations and solving the equations. Unstructured meshes are preferred for solving complex geometry problems. Boundedness of the discretization technique is ensured by using High Resolution (HR) scheme which has its roots in Normalized Variable Formulation (NVF). Turbulent flows present new issues such as intermittency, separation and recirculation. These are some phenomena which must be accounted for in extending the current 3D solver to handle turbulent flows. The research methodology involves literature review on CFD equations and turbulent flow theories, numerical discretization and advanced programming techniques. A review of existing 3D code and test runs are necessary to understand the structure of the source code and incorporate extensions. The output from the solver can then be analysed using Techplot 360 which is a postprocessor. �2009 IEEE. Final 2023-12-29T07:53:02Z 2023-12-29T07:53:02Z 2009 Conference paper 10.1109/SCORED.2009.5443200 2-s2.0-77952667026 https://www.scopus.com/inward/record.uri?eid=2-s2.0-77952667026&doi=10.1109%2fSCORED.2009.5443200&partnerID=40&md5=2e98c179435af97d5cef8217470c92f2 https://irepository.uniten.edu.my/handle/123456789/30773 5443200 154 156 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Normalization
Solver
Turbulence
Computer science
Research
Three dimensional
Turbulence
Turbulent flow
3D codes
Boundedness
CFD codes
CFD solver
Complex geometries
Discretizations
Flow equations
Flow variable
Fluid flow
Governing equations
High resolution
Intermittency
Literature reviews
Normalization
Numerical discretization
Post-processor
Preprocessors
Programming technique
Recirculations
Research methodologies
Source codes
Specific problems
Test runs
Unstructured meshes
Variable formulation
Computational fluid dynamics
spellingShingle Normalization
Solver
Turbulence
Computer science
Research
Three dimensional
Turbulence
Turbulent flow
3D codes
Boundedness
CFD codes
CFD solver
Complex geometries
Discretizations
Flow equations
Flow variable
Fluid flow
Governing equations
High resolution
Intermittency
Literature reviews
Normalization
Numerical discretization
Post-processor
Preprocessors
Programming technique
Recirculations
Research methodologies
Source codes
Specific problems
Test runs
Unstructured meshes
Variable formulation
Computational fluid dynamics
Perumal S.V.
Yusoff M.Z.
High resolution 2D CFD solver based on normalized variable formulation
description The study of systems involving fluid flow, heat transfer and associated phenomena using computers is termed as computational fluid dynamics (CFD). The governing equations that define fluid flow phenomena are solved for specific problems using CFD codes. CFD codes comprise three main elements which are preprocessor, solver and postprocessor. The main concern of this research is the solver element. The solver uses information from the preprocessing stage to approximate unknown flow variables by means of functions, discretize governing flow equations and solving the equations. Unstructured meshes are preferred for solving complex geometry problems. Boundedness of the discretization technique is ensured by using High Resolution (HR) scheme which has its roots in Normalized Variable Formulation (NVF). Turbulent flows present new issues such as intermittency, separation and recirculation. These are some phenomena which must be accounted for in extending the current 3D solver to handle turbulent flows. The research methodology involves literature review on CFD equations and turbulent flow theories, numerical discretization and advanced programming techniques. A review of existing 3D code and test runs are necessary to understand the structure of the source code and incorporate extensions. The output from the solver can then be analysed using Techplot 360 which is a postprocessor. �2009 IEEE.
author2 36069964900
author_facet 36069964900
Perumal S.V.
Yusoff M.Z.
format Conference paper
author Perumal S.V.
Yusoff M.Z.
author_sort Perumal S.V.
title High resolution 2D CFD solver based on normalized variable formulation
title_short High resolution 2D CFD solver based on normalized variable formulation
title_full High resolution 2D CFD solver based on normalized variable formulation
title_fullStr High resolution 2D CFD solver based on normalized variable formulation
title_full_unstemmed High resolution 2D CFD solver based on normalized variable formulation
title_sort high resolution 2d cfd solver based on normalized variable formulation
publishDate 2023
_version_ 1806428245994766336
score 13.188404

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