Passive control of base pressure using cavities in a sudden expansion duct: a CFD approach

CFD is used to simulate the geometry of a Converging-Diverging (C-D) nozzle that has suddenly expanded into an enlarged duct with a cavity. The Mach number for this study is 1.8, and the area ratio is 2.56. The L/D considered 1, 2, 3, 4, 6, 8, and 10, and the simulated nozzle pressure ratio (NPR) wa...

Full description

Saved in:
Bibliographic Details
Main Authors: Ridwan, R, Zuraidi, Nur Husnina Muhamad, Shaikh, Istiyak Mudassir, Khan, Sher Afghan
Format: Article
Language:English
Published: Science Press 2022
Subjects:
Online Access:http://irep.iium.edu.my/98576/7/98576_Passive%20control%20of%20base%20pressure%20using%20cavities.pdf
http://irep.iium.edu.my/98576/
https://jmerd.net/03-2022-44-70/
Tags: Add Tag
No Tags, Be the first to tag this record!
Institution: Universiti Islam Antarabangsa Malaysia
Language: English
id my.iium.irep.98576
record_format dspace
spelling my.iium.irep.985762022-06-30T00:42:22Z http://irep.iium.edu.my/98576/ Passive control of base pressure using cavities in a sudden expansion duct: a CFD approach Ridwan, R Zuraidi, Nur Husnina Muhamad Shaikh, Istiyak Mudassir Khan, Sher Afghan TL780 Rockets CFD is used to simulate the geometry of a Converging-Diverging (C-D) nozzle that has suddenly expanded into an enlarged duct with a cavity. The Mach number for this study is 1.8, and the area ratio is 2.56. The L/D considered 1, 2, 3, 4, 6, 8, and 10, and the simulated nozzle pressure ratio (NPR) was between 2, 3, 5, 5.75, 7, and 9. 2-D model was created with ANSYS Fluent's Design Modeler. The focus was on the duct's base pressure and wall pressure. D = 16 mm is the diameter of the tube. The results show that the NPR and cavity location from the base wall strongly influenced the base pressure. The primary goal of this project is to investigate the effect of the cavity and its geometry on base pressure using CFD. It is found that the base pressure is a vital function of the nozzle pressure ratio (NPR), the inertia level available to the flow, the duct length, and the ambient pressure. The free stream atmospheric pressure strongly influences the base pressure for low duct length. As for the smaller duct sizes, namely L/D = 1 and 2, the ambient atmospheric pressure will most likely impact the enlarged duct's flow development. Cavity as a passive control seems to become effective once the flow from the nozzle is under-expanded. For an over-expanded nozzle, the passive flow control management in the cavity form is not adequate. Any increase in the cavity size from 3: 3 to 6:3 or 3:6 does not give any encouraging results. Hence, there is no need to use a cavity with a more considerable length. The best geometry seems to be with aspect ratio for the given parameters. It might provide better results when the enlarged duct diameter is increased, as the duct diameter in the present case is 18 mm. The cavity location at 1D seems to be the best option to increase the base pressure, Mach number and cavity aspect ratio strongly influence the base pressure in the wake region. Science Press 2022-06-29 Article PeerReviewed application/pdf en http://irep.iium.edu.my/98576/7/98576_Passive%20control%20of%20base%20pressure%20using%20cavities.pdf Ridwan, R and Zuraidi, Nur Husnina Muhamad and Shaikh, Istiyak Mudassir and Khan, Sher Afghan (2022) Passive control of base pressure using cavities in a sudden expansion duct: a CFD approach. Journal of Mechanical Engineering Research and Developments, 45 (3). pp. 44-70. ISSN 1024-1752 https://jmerd.net/03-2022-44-70/
institution Universiti Islam Antarabangsa Malaysia
building IIUM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider International Islamic University Malaysia
content_source IIUM Repository (IREP)
url_provider http://irep.iium.edu.my/
language English
topic TL780 Rockets
spellingShingle TL780 Rockets
Ridwan, R
Zuraidi, Nur Husnina Muhamad
Shaikh, Istiyak Mudassir
Khan, Sher Afghan
Passive control of base pressure using cavities in a sudden expansion duct: a CFD approach
description CFD is used to simulate the geometry of a Converging-Diverging (C-D) nozzle that has suddenly expanded into an enlarged duct with a cavity. The Mach number for this study is 1.8, and the area ratio is 2.56. The L/D considered 1, 2, 3, 4, 6, 8, and 10, and the simulated nozzle pressure ratio (NPR) was between 2, 3, 5, 5.75, 7, and 9. 2-D model was created with ANSYS Fluent's Design Modeler. The focus was on the duct's base pressure and wall pressure. D = 16 mm is the diameter of the tube. The results show that the NPR and cavity location from the base wall strongly influenced the base pressure. The primary goal of this project is to investigate the effect of the cavity and its geometry on base pressure using CFD. It is found that the base pressure is a vital function of the nozzle pressure ratio (NPR), the inertia level available to the flow, the duct length, and the ambient pressure. The free stream atmospheric pressure strongly influences the base pressure for low duct length. As for the smaller duct sizes, namely L/D = 1 and 2, the ambient atmospheric pressure will most likely impact the enlarged duct's flow development. Cavity as a passive control seems to become effective once the flow from the nozzle is under-expanded. For an over-expanded nozzle, the passive flow control management in the cavity form is not adequate. Any increase in the cavity size from 3: 3 to 6:3 or 3:6 does not give any encouraging results. Hence, there is no need to use a cavity with a more considerable length. The best geometry seems to be with aspect ratio for the given parameters. It might provide better results when the enlarged duct diameter is increased, as the duct diameter in the present case is 18 mm. The cavity location at 1D seems to be the best option to increase the base pressure, Mach number and cavity aspect ratio strongly influence the base pressure in the wake region.
format Article
author Ridwan, R
Zuraidi, Nur Husnina Muhamad
Shaikh, Istiyak Mudassir
Khan, Sher Afghan
author_facet Ridwan, R
Zuraidi, Nur Husnina Muhamad
Shaikh, Istiyak Mudassir
Khan, Sher Afghan
author_sort Ridwan, R
title Passive control of base pressure using cavities in a sudden expansion duct: a CFD approach
title_short Passive control of base pressure using cavities in a sudden expansion duct: a CFD approach
title_full Passive control of base pressure using cavities in a sudden expansion duct: a CFD approach
title_fullStr Passive control of base pressure using cavities in a sudden expansion duct: a CFD approach
title_full_unstemmed Passive control of base pressure using cavities in a sudden expansion duct: a CFD approach
title_sort passive control of base pressure using cavities in a sudden expansion duct: a cfd approach
publisher Science Press
publishDate 2022
url http://irep.iium.edu.my/98576/7/98576_Passive%20control%20of%20base%20pressure%20using%20cavities.pdf
http://irep.iium.edu.my/98576/
https://jmerd.net/03-2022-44-70/
_version_ 1738510120960131072