Fluid flow studies of the F-5E and F-16 inlet ducts
The intake represents the front of a complex aerodynamic system. The shape of the intake diffuser follows the contours of the aircraft for external aerodynamic reasons. However the meandering shape can result in unwanted secondary flow or swirl build up at the Aerodynamic Interface Plane (AIP), resu...
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sg-ntu-dr.10356-145812023-03-11T17:51:45Z Fluid flow studies of the F-5E and F-16 inlet ducts Imran Halimi Ibrahim Ng Yin Kwee School of Mechanical and Aerospace Engineering DRNTU::Engineering::Aeronautical engineering::Jet propulsion The intake represents the front of a complex aerodynamic system. The shape of the intake diffuser follows the contours of the aircraft for external aerodynamic reasons. However the meandering shape can result in unwanted secondary flow or swirl build up at the Aerodynamic Interface Plane (AIP), resulting in engine flutter and stall. Using the Finite Element Method (FEM) Partial Differential Equations (PDE) calculator COMSOL, the compressible flow equations were obtained by the coupling of the continuity and momentum equations in the k-ε turbulence model and the energy equation conduction and convections model. The standard validation and verification techniques employed in the computational analysis were conducted in the study of F-5E and F-16 aerodynamic intakes. The results were validated using experimental results of the circular S-duct. Static pressure contours of the S-duct were compared at the azimuthal angles 0ο, 90ο and 180ο with reasonable agreement. The Grid Convergence Index (GCI) study done on the circular S-duct, F-5E and F-16 intakes using the pressure recovery as variable. MASTER OF ENGINEERING (MAE) 2009-01-08T03:44:49Z 2009-01-08T03:44:49Z 2008 2008 Thesis Imran, H. I. (2008). Fluid flow studies of the F-5E and F-16 inlet ducts. Master’s thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/14581 10.32657/10356/14581 en 155 p. application/pdf |
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DRNTU::Engineering::Aeronautical engineering::Jet propulsion Imran Halimi Ibrahim Fluid flow studies of the F-5E and F-16 inlet ducts |
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The intake represents the front of a complex aerodynamic system. The shape of the intake diffuser follows the contours of the aircraft for external aerodynamic reasons. However the meandering shape can result in unwanted secondary flow or swirl build up at the Aerodynamic Interface Plane (AIP), resulting in engine flutter and stall. Using the Finite Element Method (FEM) Partial Differential Equations (PDE) calculator COMSOL, the compressible flow equations were obtained by the coupling of the continuity and momentum equations in the k-ε turbulence model and the energy equation conduction and convections model. The standard validation and verification techniques employed in the computational analysis were conducted in the study of F-5E and F-16 aerodynamic intakes. The results were validated using experimental results of the circular S-duct. Static pressure contours of the S-duct were compared at the azimuthal angles 0ο, 90ο and 180ο with reasonable agreement. The Grid Convergence Index (GCI) study done on the circular S-duct, F-5E and F-16 intakes using the pressure recovery as variable. |
| author2 |
Ng Yin Kwee |
| author_facet |
Ng Yin Kwee Imran Halimi Ibrahim |
| format |
Theses and Dissertations |
| author |
Imran Halimi Ibrahim |
| author_sort |
Imran Halimi Ibrahim |
| title |
Fluid flow studies of the F-5E and F-16 inlet ducts |
| title_short |
Fluid flow studies of the F-5E and F-16 inlet ducts |
| title_full |
Fluid flow studies of the F-5E and F-16 inlet ducts |
| title_fullStr |
Fluid flow studies of the F-5E and F-16 inlet ducts |
| title_full_unstemmed |
Fluid flow studies of the F-5E and F-16 inlet ducts |
| title_sort |
fluid flow studies of the f-5e and f-16 inlet ducts |
| publishDate |
2009 |
| url |
https://hdl.handle.net/10356/14581 |
| _version_ |
1761781807689236480 |