This paper aims to estimate the surface pressure of a wedge at hypersonic Mach numbers at a considerable angle of incidence. The Ghosh similitude, corresponding strip theory,

and piston theory are used to determine the pressure distribution analytically, and the results are compared to those of the CFD analysis. The theory is valid when the shock

wave is attached to the leading edge of the nose of the wedge. Pressure on the windward surface was considered in the analysis. The pressure on the Lee surface is neglected. The condition for the validity of the theory is that the Mach number M2 behind the shock wave is greater than 2.5. The parameters taken into account for the study are the wedge

angle and Mach number. The range of wedge angle considered is from 5 to 25 degrees and the Mach number considered is from 5 to 15. The analytical and the CFD results are in good agreement. The findings indicate that the parameters like wedge angle and Mach number are influential parameters that influence the wedge surface static pressur

A., Shamitha

Crasta, Asha

Khan, Sher Afghan

Pathan, Khizer Ahmed

The International Islamic University Malaysia Repository

 1 of 1Journal of Advanced Research in Applied Sciences and Engineering Technology  • Open Access  • Volume   , Issue  , Pages    -    • March     ◅ Back to results Download  Print  Save to PDF ⋆ Save to list  Create bibliographyDocument typeArticle • Hybrid Gold Open AccessSource typeJournalISSN        DOI  .     /araset.  . .    View less PublisherPenerbit Akademia BaruOriginal languageEnglishAnalytical and Numerical Simulation of SurfacePressure of an Oscillating Wedge at HypersonicMach Numbers and Application of Taguchi'sMethodShamitha ; Crasta, Asha ; Pathan, Khizar Ahmed ; Khan, Sher AfghanSave all to author lista a b cDepartment of Mathematics, M.I.T.E, Moodabidri & Affiliated To VTU, Karnataka, Belgavi, IndiaDepartment of Mechanical Engineering, Trinity College of Engineering and Research, Pune, IndiaDepartment of Mechanical Engineering, Faculty of Engineering, IIUM, Gombak Campus, Kuala Lumpur, Malaysiaa b c Full text options ExportAbstractAuthor keywordsSciVal TopicsAbstractThis paper aims to estimate the surface pressure of a wedge at hypersonic Mach numbers at aconsiderable angle of incidence. The Ghosh similitude, corresponding strip theory, and piston theoryare used to determine the pressure distribution analytically, and the results are compared to those ofthe CFD analysis. The theory is valid when the shock wave is attached to the leading edge of the nose ofthe wedge. Pressure on the windward surface was considered in the analysis. The pressure on the LeeCited by 0 documentsInform me when this documentis cited in Scopus:Related documents,  , (2023) Journal of AdvancedResearch in Applied Mechanics,  , (2023) Fluid Dynamics andMaterials Processing,  , (2022) Advances in Aircraft andSpacecraft ScienceFind more related documents inScopus based on:Set citation alert ▻Numerical Simulation of SurfacePressure of a Wedge atSupersonic Mach Numbers andApplication of Design ofExperiments Shamitha Crasta, A. Pathan,K.A.Computational Analysis ofSurface Pressure Distributionover a 2DWedge in theSupersonic and Hypersonic FlowRegimes Shaikh, J.S. Kumar, K. Pathan,K.A.Analytical and computationalanalysis of pressure at the noseof a 2D wedge in high speed flow Shaikh, J.S. Kumar, K. Pathan,K.A.View all related documents basedon references ▻Authors  ▻KeywordsBrought to you by INTERNATIONAL ISLAMIC UNIVERSITY MALAYSIAsurface is neglected. The condition for the validity of the theory is that the Mach number M2 behindthe shock wave is greater than 2.5. The parameters taken into account for the study are the wedgeangle and Mach number. The range of wedge angle considered is from 5 to 25 degrees and the Machnumber considered is from 5 to 15. The analytical and the CFD results are in good agreement. Thefindings indicate that the parameters like wedge angle and Mach number are influential parametersthat influence the wedge surface static pressure. The surface static pressure rises with an increase inMach number and wedge angle. © 2023, Penerbit Akademia Baru. All rights reserved.Author keywordsHypersonic; Mach number; Wedge angleSciVal TopicsReferences (31)Lighthill, Mo J.Oscillating airfoils at high Mach number(1953) Journal of the Aeronautical Sciences, 20 (6), pp. 402-406. . Hayes, Wallace D.On hypersonic similitude(1947) Quarterly of Applied Mathematics, 5 (1), pp. 105-106.  . Hui, W. H.Supersonic and hypersonic flow with attached shock waves over delta wings(1971) Proceedings of the Royal Society of London. A. 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Analytical and numerical simulation of surface pressure of an oscillating wedge at hypersonic Mach numbers and application of Taguchi's method

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Analytical and numerical simulation of surface pressure of an oscillating wedge at hypersonic Mach numbers and application of Taguchi's method

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