Please use this identifier to cite or link to this item: http://hdl.handle.net/10603/49385
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dc.coverage.spatialInnovative passive control for high speed jetsen_US
dc.date.accessioned2015-09-11T04:57:03Z-
dc.date.available2015-09-11T04:57:03Z-
dc.date.issued2015-09-11-
dc.identifier.urihttp://hdl.handle.net/10603/49385-
dc.description.abstractnewlineAn experimental investigation has been carried out to study the mixing promoting efficiency of perforated tabs with 9 55 blockage solid tab 8 42 blockage 1 5 mm circular perforation 7 55 blockage 2 mm circular perforation and 6 42 blockage 2 5 mm circular perforation Tabs were attached diametrically opposite at the convergent nozzle The investigation was carried out for the jet with the exit Mach 0 2 0 4 0 6 0 8 1 0 and sonic underexpanded levels of NPR3 and NPR4 The Mach number decay along the centerline in case of subsonic and sonic jets and Pitot pressure decay in case of underexpanded jet NPR3 and NPR4 were measured Similarly Mach and Pitot pressure profiles along and normal to the tabs were also measured The waves present in the core of uncontrolled and controlled jets were visualized with shadowgraph technique The nozzle pressure ratio for shadowgraph was 3 4 and 6 The results of present study demonstrate the validity of the hypothesis that solid tab is better mixing promoter among all the tabs investigated in the subsonic and sonic jets Thrust loss associated with more blockages in case of solid tab can be regarded as major disadvantage which is overcome by perforated tabs used in present study Tab with 2 mm circular perforation due to varying sizes of vortices shed by the combination of perforation and web with varying width of web from center to tangential web is better mixing promoter than other the tabs with 1 5 mm 2 5 mm circular perforation As high as 61 9 reduction in core length was achieved with 2 mm circular perforation at 0 6 jet Mach number The corresponding core length reduction caused by 1 5 mm and 2 5 mm circular perforation are 47 61 newline newlineen_US
dc.format.extentxxxi, 192P.en_US
dc.languageEnglishen_US
dc.relationp.182-191en_US
dc.rightsuniversityen_US
dc.titleInnovative passive control for high speed jetsen_US
dc.title.alternativeen_US
dc.creator.researcherDharmahinder singh chanden_US
dc.subject.keywordAerospace engineeringen_US
dc.subject.keywordhigh speed jetsen_US
dc.subject.keywordInnovative passive controlen_US
dc.subject.keywordMechanical engineeringen_US
dc.subject.keywordPitot pressure decayen_US
dc.subject.keywordShadowgraph techniqueen_US
dc.subject.keywordsonic jetsen_US
dc.description.noteen_US
dc.contributor.guideThanigaiarasu Sen_US
dc.publisher.placeChennaien_US
dc.publisher.universityAnna Universityen_US
dc.publisher.institutionFaculty of Mechanical Engineeringen_US
dc.date.registeredn.d.en_US
dc.date.completed01/08/2014en_US
dc.date.awarded30/08/2014en_US
dc.format.dimensions23cmen_US
dc.format.accompanyingmaterialDVDen_US
dc.source.universityUniversityen_US
dc.type.degreePh.D.en_US
Appears in Departments:Faculty of Mechanical Engineering

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01_title.pdfAttached File82.95 kBAdobe PDFView/Open
02_certificate.pdf1.17 MBAdobe PDFView/Open
03_abstract.pdf13.23 kBAdobe PDFView/Open
04_acknowledgement.pdf7.06 kBAdobe PDFView/Open
05_contents.pdf72.4 kBAdobe PDFView/Open
06_chapter1.pdf7.83 kBAdobe PDFView/Open
07_chapter2.pdf440.97 kBAdobe PDFView/Open
08_chapter3.pdf5.02 MBAdobe PDFView/Open
09_chapter4.pdf8.28 MBAdobe PDFView/Open
10_chapter5.pdf8.39 kBAdobe PDFView/Open
11_chapter6.pdf5.92 kBAdobe PDFView/Open
12_references.pdf34 kBAdobe PDFView/Open
13_publications.pdf5.3 kBAdobe PDFView/Open


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