Numerical simulation of surface pressure of a wedge at supersonic Mach numbers and application of design of experiments
This paper aims to numerically simulate the flow field for wedge, cone and gives. Usually, wedge shapes are used as a stabilizing surface for supersonic projectiles like rockets, missiles, and planes in defense applications. Wedge-shaped or delta wings are often the principal wing used for the stabi...
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2023
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| Online Access: | http://irep.iium.edu.my/103570/2/103570_Numerical%20simulation%20of%20surface%20pressure.pdf http://irep.iium.edu.my/103570/8/103570_Numerical%20Simulation%20of%20Surface%20Pressure%20of%20a%20Wedge%20at%20Supersonic%20Mach%20Numbers_SCOPUS.pdf http://irep.iium.edu.my/103570/ https://semarakilmu.com.my/journals/index.php/appl_mech/article/view/1518/977 |
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my.iium.irep.1035702023-12-31T07:07:00Z http://irep.iium.edu.my/103570/ Numerical simulation of surface pressure of a wedge at supersonic Mach numbers and application of design of experiments Shamitha, Shamitha Crasta, Asha Pathan, Khizar Ahmed Khan, Sher Afghan TL500 Aeronautics This paper aims to numerically simulate the flow field for wedge, cone and gives. Usually, wedge shapes are used as a stabilizing surface for supersonic projectiles like rockets, missiles, and planes in defense applications. Wedge-shaped or delta wings are often the principal wing used for the stability of supersonic aircraft/missiles. The main goal of the current study is to estimate the pressure at the wedge-shaped planes/missiles' noses at different Mach numbers and incidence angles. Analytical pressure distribution is determined using the strip and piston theory. Later the outcomes from the numerical simulations are compared with the results obtained analytically. The analytical and CFD findings matching is very good. The findings demonstrate that the Mach number and wedge angle are the variables that influence the deviation of static pressure. The static pressure on the surface of the wedge grows with the rise in the semi-vertex angle of the wedge angle and the Mach number. This increase in the surface pressure ratio is linear for the increase in Mach number as well as the semi-vertex angle of the wedge. However, the magnitude of the increase with the Mach numbers are not the same as what it was for low Mach numbers. The enhancement in the pressure decreases with the Mach numbers. Semarak Ilmu Publishing 2023-02-02 Article PeerReviewed application/pdf en http://irep.iium.edu.my/103570/2/103570_Numerical%20simulation%20of%20surface%20pressure.pdf application/pdf en http://irep.iium.edu.my/103570/8/103570_Numerical%20Simulation%20of%20Surface%20Pressure%20of%20a%20Wedge%20at%20Supersonic%20Mach%20Numbers_SCOPUS.pdf Shamitha, Shamitha and Crasta, Asha and Pathan, Khizar Ahmed and Khan, Sher Afghan (2023) Numerical simulation of surface pressure of a wedge at supersonic Mach numbers and application of design of experiments. Journal of Advanced Research in Applied Mechanics, 101 (1). pp. 1-18. E-ISSN 2289-7895 https://semarakilmu.com.my/journals/index.php/appl_mech/article/view/1518/977 10.37934/aram.101.1.118 |
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TL500 Aeronautics Shamitha, Shamitha Crasta, Asha Pathan, Khizar Ahmed Khan, Sher Afghan Numerical simulation of surface pressure of a wedge at supersonic Mach numbers and application of design of experiments |
| description |
This paper aims to numerically simulate the flow field for wedge, cone and gives. Usually, wedge shapes are used as a stabilizing surface for supersonic projectiles like rockets, missiles, and planes in defense applications. Wedge-shaped or delta wings are often the principal wing used for the stability of supersonic aircraft/missiles. The main goal of the current study is to estimate the pressure at the wedge-shaped planes/missiles' noses at different Mach numbers and incidence angles. Analytical pressure distribution is determined using the strip and piston theory. Later the
outcomes from the numerical simulations are compared with the results obtained analytically. The analytical and CFD findings matching is very good. The findings demonstrate that the Mach number and wedge angle are the variables that influence the deviation of static pressure. The static pressure on the surface of the wedge grows with the rise in the semi-vertex angle of the wedge angle and the Mach number. This
increase in the surface pressure ratio is linear for the increase in Mach number as well as the semi-vertex angle of the wedge. However, the magnitude of the increase with the
Mach numbers are not the same as what it was for low Mach numbers. The enhancement in the pressure decreases with the Mach numbers. |
| format |
Article |
| author |
Shamitha, Shamitha Crasta, Asha Pathan, Khizar Ahmed Khan, Sher Afghan |
| author_facet |
Shamitha, Shamitha Crasta, Asha Pathan, Khizar Ahmed Khan, Sher Afghan |
| author_sort |
Shamitha, Shamitha |
| title |
Numerical simulation of surface pressure of a wedge at supersonic Mach numbers and application of design of experiments |
| title_short |
Numerical simulation of surface pressure of a wedge at supersonic Mach numbers and application of design of experiments |
| title_full |
Numerical simulation of surface pressure of a wedge at supersonic Mach numbers and application of design of experiments |
| title_fullStr |
Numerical simulation of surface pressure of a wedge at supersonic Mach numbers and application of design of experiments |
| title_full_unstemmed |
Numerical simulation of surface pressure of a wedge at supersonic Mach numbers and application of design of experiments |
| title_sort |
numerical simulation of surface pressure of a wedge at supersonic mach numbers and application of design of experiments |
| publisher |
Semarak Ilmu Publishing |
| publishDate |
2023 |
| url |
http://irep.iium.edu.my/103570/2/103570_Numerical%20simulation%20of%20surface%20pressure.pdf http://irep.iium.edu.my/103570/8/103570_Numerical%20Simulation%20of%20Surface%20Pressure%20of%20a%20Wedge%20at%20Supersonic%20Mach%20Numbers_SCOPUS.pdf http://irep.iium.edu.my/103570/ https://semarakilmu.com.my/journals/index.php/appl_mech/article/view/1518/977 |
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