2D transient and heat transfer analysis of a coupled vane compressor
The Coupled Vane Compressor (CVC) is a compact compressor that aims to reduce the amount of material used during manufacturing. To study the feasibility and performance of the CVC, the compressor is simulated in a 2D simulation using a numerical computational code ANSYS Fluent. Updated techniques...
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Nanyang Technological University
2023
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sg-ntu-dr.10356-1675902023-06-03T16:50:32Z 2D transient and heat transfer analysis of a coupled vane compressor Ng, Dillon Kai Heng Ooi Kim Tiow School of Mechanical and Aerospace Engineering MKTOOI@ntu.edu.sg Engineering::Mathematics and analysis::Simulations Engineering::Mechanical engineering The Coupled Vane Compressor (CVC) is a compact compressor that aims to reduce the amount of material used during manufacturing. To study the feasibility and performance of the CVC, the compressor is simulated in a 2D simulation using a numerical computational code ANSYS Fluent. Updated techniques such as the overset mesh method, courant number, and inflation mesh layer help to capture the flow details within the CVC to a high level of accuracy. Through simulations, data for pressure, velocity, temperature, density, mass flow rate, and total heat transfer rate at varying wall and outlet temperature are obtained. It was concluded that as operating temperature increase, an increase in velocity and total heat transfer rate was observed. On the other hand, the increase of operating temperature leads to a decrease in density and mass flow rate. Overall, the results from this transient 2D simulation opens more opportunities for subsequent 3D simulations to better capture real-life results of the CVC. Bachelor of Engineering (Mechanical Engineering) 2023-05-30T07:34:19Z 2023-05-30T07:34:19Z 2023 Final Year Project (FYP) Ng, D. K. H. (2023). 2D transient and heat transfer analysis of a coupled vane compressor. Final Year Project (FYP), Nanyang Technological University, Singapore. https://hdl.handle.net/10356/167590 https://hdl.handle.net/10356/167590 en B189 application/pdf Nanyang Technological University |
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Engineering::Mathematics and analysis::Simulations Engineering::Mechanical engineering Ng, Dillon Kai Heng 2D transient and heat transfer analysis of a coupled vane compressor |
| description |
The Coupled Vane Compressor (CVC) is a compact compressor that aims to reduce
the amount of material used during manufacturing. To study the feasibility and
performance of the CVC, the compressor is simulated in a 2D simulation using a
numerical computational code ANSYS Fluent. Updated techniques such as the overset
mesh method, courant number, and inflation mesh layer help to capture the flow
details within the CVC to a high level of accuracy. Through simulations, data for
pressure, velocity, temperature, density, mass flow rate, and total heat transfer rate at
varying wall and outlet temperature are obtained. It was concluded that as operating
temperature increase, an increase in velocity and total heat transfer rate was observed.
On the other hand, the increase of operating temperature leads to a decrease in density
and mass flow rate. Overall, the results from this transient 2D simulation opens more
opportunities for subsequent 3D simulations to better capture real-life results of the
CVC. |
| author2 |
Ooi Kim Tiow |
| author_facet |
Ooi Kim Tiow Ng, Dillon Kai Heng |
| format |
Final Year Project |
| author |
Ng, Dillon Kai Heng |
| author_sort |
Ng, Dillon Kai Heng |
| title |
2D transient and heat transfer analysis of a coupled vane compressor |
| title_short |
2D transient and heat transfer analysis of a coupled vane compressor |
| title_full |
2D transient and heat transfer analysis of a coupled vane compressor |
| title_fullStr |
2D transient and heat transfer analysis of a coupled vane compressor |
| title_full_unstemmed |
2D transient and heat transfer analysis of a coupled vane compressor |
| title_sort |
2d transient and heat transfer analysis of a coupled vane compressor |
| publisher |
Nanyang Technological University |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/167590 |
| _version_ |
1772827384115888128 |