CFD modelling of flow structure and internal leakage paths for a swing compressor

Computational fluid dynamics (CFD) has long been used as a tool to examine the operational performance of a newly designed device in terms of fluid behaviour. The benefits of using CFD include saving time and experimental cost as a prototype need not be created during the testing phase. Recently, ri...

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Main Author: Heng, Wan Teng
Other Authors: Ooi Kim Tiow
Format: Final Year Project
Language:English
Published: 2019
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Online Access:http://hdl.handle.net/10356/78555
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-785552023-03-04T18:33:29Z CFD modelling of flow structure and internal leakage paths for a swing compressor Heng, Wan Teng Ooi Kim Tiow School of Mechanical and Aerospace Engineering DRNTU::Engineering::Mechanical engineering Computational fluid dynamics (CFD) has long been used as a tool to examine the operational performance of a newly designed device in terms of fluid behaviour. The benefits of using CFD include saving time and experimental cost as a prototype need not be created during the testing phase. Recently, rising concerns on environmental issues have highlighted the importance of energy efficient products. Hence, the minimisation of leakages in compressors has become one of the significant criteria in increasing volumetric efficiency. In this project, CFD was used as a tool to study leakages which occurred in a swing compressor. A model of a swing compressor was first created to understand the flow structure in the compression and suction chambers and the working fluid used was air. Prominent leakage paths in the compressor were then identified and parametric studies were conducted to study the effect of pressure and clearance sizes on the leakages across the leakage paths. Simulation results showed that as pressure and clearance sizes of radial clearance increases, mass flow rate across the clearance increases linearly. In the analysis of end face clearance, two variables were used to study the mass flow rate across clearance; a similar number of mesh layers across the clearance and equivalent cell layer thickness. Results from both variables were discussed and it was shown that the growth curves displayed a similar polynomial trend, indicating that an increment in pressure and clearance sizes affect the leakage rate across the clearances. Hence, it can be concluded that the dimension of clearances plays an essential role in the leakages of the swing compressor. Bachelor of Engineering (Mechanical Engineering) 2019-06-21T07:34:16Z 2019-06-21T07:34:16Z 2019 Final Year Project (FYP) http://hdl.handle.net/10356/78555 en Nanyang Technological University 99 p. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic DRNTU::Engineering::Mechanical engineering
spellingShingle DRNTU::Engineering::Mechanical engineering
Heng, Wan Teng
CFD modelling of flow structure and internal leakage paths for a swing compressor
description Computational fluid dynamics (CFD) has long been used as a tool to examine the operational performance of a newly designed device in terms of fluid behaviour. The benefits of using CFD include saving time and experimental cost as a prototype need not be created during the testing phase. Recently, rising concerns on environmental issues have highlighted the importance of energy efficient products. Hence, the minimisation of leakages in compressors has become one of the significant criteria in increasing volumetric efficiency. In this project, CFD was used as a tool to study leakages which occurred in a swing compressor. A model of a swing compressor was first created to understand the flow structure in the compression and suction chambers and the working fluid used was air. Prominent leakage paths in the compressor were then identified and parametric studies were conducted to study the effect of pressure and clearance sizes on the leakages across the leakage paths. Simulation results showed that as pressure and clearance sizes of radial clearance increases, mass flow rate across the clearance increases linearly. In the analysis of end face clearance, two variables were used to study the mass flow rate across clearance; a similar number of mesh layers across the clearance and equivalent cell layer thickness. Results from both variables were discussed and it was shown that the growth curves displayed a similar polynomial trend, indicating that an increment in pressure and clearance sizes affect the leakage rate across the clearances. Hence, it can be concluded that the dimension of clearances plays an essential role in the leakages of the swing compressor.
author2 Ooi Kim Tiow
author_facet Ooi Kim Tiow
Heng, Wan Teng
format Final Year Project
author Heng, Wan Teng
author_sort Heng, Wan Teng
title CFD modelling of flow structure and internal leakage paths for a swing compressor
title_short CFD modelling of flow structure and internal leakage paths for a swing compressor
title_full CFD modelling of flow structure and internal leakage paths for a swing compressor
title_fullStr CFD modelling of flow structure and internal leakage paths for a swing compressor
title_full_unstemmed CFD modelling of flow structure and internal leakage paths for a swing compressor
title_sort cfd modelling of flow structure and internal leakage paths for a swing compressor
publishDate 2019
url http://hdl.handle.net/10356/78555
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