The Structure of Normal-Shock/Turbulent-Boundary-Layer Interactions Modified by Mass Removal

The effect of mass removal on nominally two-dimensional, normal- shock/turbulent-boundary-layer interactions was investigated experimentally. The flowfield had a freestream approach Mach number of 1.49 and a Reynolds number based on boundary layer momentum thickness of 14,600. Distributed mass remov...

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Hauptverfasser:	Sajben, M, Morris, M J, Kroutil, J C, Bogar, T J
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Sprache:	eng
Schlagworte:	BLEED SYSTEMS BOUNDARY LAYER DISPLACEMENT DISTRIBUTION DOWNSTREAM FLOW EXPANSION EXPANSION WAVES FLOW FIELDS Fluid Mechanics FREE STREAM INTENSITY INTERACTIONS LASER VELOCIMETERS LAYERS LEADING EDGES LENGTH LOW STRENGTH MACH NUMBER MASS MASS FLOW MASS REMOVAL MASS TRANSFER MOMENTUM MOMENTUM TRANSFER PE61102F PRESSURE REMOVAL REYNOLDS NUMBER SHEAR PROPERTIES SHOCK WAVES STRESSES SUBSONIC CHARACTERISTICS SUBSONIC FLOW SUPERSONIC CHARACTERISTICS SUPERSONIC FLOW SUPERSONIC INLETS SURFACE PROPERTIES THICKNESS TRANSONIC FLOW TURBULENT BOUNDARY LAYER TURBULENT FLOW TWO DIMENSIONAL FLOW VELOCITY WUAFOSR2307A4
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creator	Sajben, M Morris, M J Kroutil, J C Bogar, T J
description	The effect of mass removal on nominally two-dimensional, normal- shock/turbulent-boundary-layer interactions was investigated experimentally. The flowfield had a freestream approach Mach number of 1.49 and a Reynolds number based on boundary layer momentum thickness of 14,600. Distributed mass removal was imposed over a length of approximately 40 initial displacement thickneses, the entire bleed zone being located immediately upstream of the shock. Detailed velocity field information was obtained for two flows, using a two component laser Doppler velocimeter system. The two time mean velocity components and the three Reynolds stress components were determined. Measurements were extended over both supersonic and subsonic regions. Surface pressure information was also obtained. The removed mass flow, averaged over the length of the bleed zone, was 2.5% and 8% of the freestream mass flow, for the two cases investigated. The data indicate that the mass removal initiates an oblique expansion wave at the leading edge of the bleed zone, increasing the Mach number of the normal shock. The expansion wave intersects the shock, initiating a weak shear layer in the subsonic flow. The boundary layer thickness remains approximately constant over the bleed zone. The streamwise velocity at the perforated plate is high, close to the freestream velocity. Turbulence intensity downstream of the bleed zone is comparable to the intensity of the approach boundary layer, in contrast to uncontrolled interactions in which the turbulence intensity is greatly amplified. Keywords: Transonic flow, Two dimensional flow, Mass transfer, Supersonic inlets.
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The flowfield had a freestream approach Mach number of 1.49 and a Reynolds number based on boundary layer momentum thickness of 14,600. Distributed mass removal was imposed over a length of approximately 40 initial displacement thickneses, the entire bleed zone being located immediately upstream of the shock. Detailed velocity field information was obtained for two flows, using a two component laser Doppler velocimeter system. The two time mean velocity components and the three Reynolds stress components were determined. Measurements were extended over both supersonic and subsonic regions. Surface pressure information was also obtained. The removed mass flow, averaged over the length of the bleed zone, was 2.5% and 8% of the freestream mass flow, for the two cases investigated. The data indicate that the mass removal initiates an oblique expansion wave at the leading edge of the bleed zone, increasing the Mach number of the normal shock. The expansion wave intersects the shock, initiating a weak shear layer in the subsonic flow. The boundary layer thickness remains approximately constant over the bleed zone. The streamwise velocity at the perforated plate is high, close to the freestream velocity. Turbulence intensity downstream of the bleed zone is comparable to the intensity of the approach boundary layer, in contrast to uncontrolled interactions in which the turbulence intensity is greatly amplified. Keywords: Transonic flow, Two dimensional flow, Mass transfer, Supersonic inlets.</description><language>eng</language><subject>BLEED SYSTEMS ; BOUNDARY LAYER ; DISPLACEMENT ; DISTRIBUTION ; DOWNSTREAM FLOW ; EXPANSION ; EXPANSION WAVES ; FLOW FIELDS ; Fluid Mechanics ; FREE STREAM ; INTENSITY ; INTERACTIONS ; LASER VELOCIMETERS ; LAYERS ; LEADING EDGES ; LENGTH ; LOW STRENGTH ; MACH NUMBER ; MASS ; MASS FLOW ; MASS REMOVAL ; MASS TRANSFER ; MOMENTUM ; MOMENTUM TRANSFER ; PE61102F ; PRESSURE ; REMOVAL ; REYNOLDS NUMBER ; SHEAR PROPERTIES ; SHOCK WAVES ; STRESSES ; SUBSONIC CHARACTERISTICS ; SUBSONIC FLOW ; SUPERSONIC CHARACTERISTICS ; SUPERSONIC FLOW ; SUPERSONIC INLETS ; SURFACE PROPERTIES ; THICKNESS ; TRANSONIC FLOW ; TURBULENT BOUNDARY LAYER ; TURBULENT FLOW ; TWO DIMENSIONAL FLOW ; VELOCITY ; WUAFOSR2307A4</subject><creationdate>1989</creationdate><rights>Approved for public release; distribution is unlimited.</rights><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>230,776,881,27546,27547</link.rule.ids><linktorsrc>$$Uhttps://apps.dtic.mil/sti/citations/ADA208402$$EView_record_in_DTIC$$FView_record_in_$$GDTIC$$Hfree_for_read</linktorsrc></links><search><creatorcontrib>Sajben, M</creatorcontrib><creatorcontrib>Morris, M J</creatorcontrib><creatorcontrib>Kroutil, J C</creatorcontrib><creatorcontrib>Bogar, T J</creatorcontrib><creatorcontrib>MCDONNELL DOUGLAS RESEARCH LABS ST LOUIS MO</creatorcontrib><title>The Structure of Normal-Shock/Turbulent-Boundary-Layer Interactions Modified by Mass Removal</title><description>The effect of mass removal on nominally two-dimensional, normal- shock/turbulent-boundary-layer interactions was investigated experimentally. The flowfield had a freestream approach Mach number of 1.49 and a Reynolds number based on boundary layer momentum thickness of 14,600. Distributed mass removal was imposed over a length of approximately 40 initial displacement thickneses, the entire bleed zone being located immediately upstream of the shock. Detailed velocity field information was obtained for two flows, using a two component laser Doppler velocimeter system. The two time mean velocity components and the three Reynolds stress components were determined. Measurements were extended over both supersonic and subsonic regions. Surface pressure information was also obtained. The removed mass flow, averaged over the length of the bleed zone, was 2.5% and 8% of the freestream mass flow, for the two cases investigated. The data indicate that the mass removal initiates an oblique expansion wave at the leading edge of the bleed zone, increasing the Mach number of the normal shock. The expansion wave intersects the shock, initiating a weak shear layer in the subsonic flow. The boundary layer thickness remains approximately constant over the bleed zone. The streamwise velocity at the perforated plate is high, close to the freestream velocity. Turbulence intensity downstream of the bleed zone is comparable to the intensity of the approach boundary layer, in contrast to uncontrolled interactions in which the turbulence intensity is greatly amplified. Keywords: Transonic flow, Two dimensional flow, Mass transfer, Supersonic inlets.</description><subject>BLEED SYSTEMS</subject><subject>BOUNDARY LAYER</subject><subject>DISPLACEMENT</subject><subject>DISTRIBUTION</subject><subject>DOWNSTREAM FLOW</subject><subject>EXPANSION</subject><subject>EXPANSION WAVES</subject><subject>FLOW FIELDS</subject><subject>Fluid Mechanics</subject><subject>FREE STREAM</subject><subject>INTENSITY</subject><subject>INTERACTIONS</subject><subject>LASER VELOCIMETERS</subject><subject>LAYERS</subject><subject>LEADING EDGES</subject><subject>LENGTH</subject><subject>LOW STRENGTH</subject><subject>MACH NUMBER</subject><subject>MASS</subject><subject>MASS FLOW</subject><subject>MASS REMOVAL</subject><subject>MASS TRANSFER</subject><subject>MOMENTUM</subject><subject>MOMENTUM TRANSFER</subject><subject>PE61102F</subject><subject>PRESSURE</subject><subject>REMOVAL</subject><subject>REYNOLDS NUMBER</subject><subject>SHEAR PROPERTIES</subject><subject>SHOCK WAVES</subject><subject>STRESSES</subject><subject>SUBSONIC CHARACTERISTICS</subject><subject>SUBSONIC FLOW</subject><subject>SUPERSONIC CHARACTERISTICS</subject><subject>SUPERSONIC FLOW</subject><subject>SUPERSONIC INLETS</subject><subject>SURFACE PROPERTIES</subject><subject>THICKNESS</subject><subject>TRANSONIC FLOW</subject><subject>TURBULENT BOUNDARY LAYER</subject><subject>TURBULENT FLOW</subject><subject>TWO DIMENSIONAL FLOW</subject><subject>VELOCITY</subject><subject>WUAFOSR2307A4</subject><fulltext>true</fulltext><rsrctype>report</rsrctype><creationdate>1989</creationdate><recordtype>report</recordtype><sourceid>1RU</sourceid><recordid>eNqFyb0KwjAQAOAuDqK-gcO9QLBUB9f6h4J1sB2Fck2uNJgmcLkIfXsXd6dv-ObZqxkIauGkJTFB6OEReESn6iHo96ZJ3CVHXtQhJG-QJ3XHiRhuXohRiw0-QhWM7S0Z6CaoMEZ40hg-6JbZrEcXafVzka0v5-Z4VUasbqNYT9KWp7LI97u82P7pLzoAOJw</recordid><startdate>19890228</startdate><enddate>19890228</enddate><creator>Sajben, M</creator><creator>Morris, M J</creator><creator>Kroutil, J C</creator><creator>Bogar, T J</creator><scope>1RU</scope><scope>BHM</scope></search><sort><creationdate>19890228</creationdate><title>The Structure of Normal-Shock/Turbulent-Boundary-Layer Interactions Modified by Mass Removal</title><author>Sajben, M ; Morris, M J ; Kroutil, J C ; Bogar, T J</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-dtic_stinet_ADA2084023</frbrgroupid><rsrctype>reports</rsrctype><prefilter>reports</prefilter><language>eng</language><creationdate>1989</creationdate><topic>BLEED SYSTEMS</topic><topic>BOUNDARY LAYER</topic><topic>DISPLACEMENT</topic><topic>DISTRIBUTION</topic><topic>DOWNSTREAM FLOW</topic><topic>EXPANSION</topic><topic>EXPANSION WAVES</topic><topic>FLOW FIELDS</topic><topic>Fluid Mechanics</topic><topic>FREE STREAM</topic><topic>INTENSITY</topic><topic>INTERACTIONS</topic><topic>LASER VELOCIMETERS</topic><topic>LAYERS</topic><topic>LEADING EDGES</topic><topic>LENGTH</topic><topic>LOW STRENGTH</topic><topic>MACH NUMBER</topic><topic>MASS</topic><topic>MASS FLOW</topic><topic>MASS REMOVAL</topic><topic>MASS TRANSFER</topic><topic>MOMENTUM</topic><topic>MOMENTUM TRANSFER</topic><topic>PE61102F</topic><topic>PRESSURE</topic><topic>REMOVAL</topic><topic>REYNOLDS NUMBER</topic><topic>SHEAR PROPERTIES</topic><topic>SHOCK WAVES</topic><topic>STRESSES</topic><topic>SUBSONIC CHARACTERISTICS</topic><topic>SUBSONIC FLOW</topic><topic>SUPERSONIC CHARACTERISTICS</topic><topic>SUPERSONIC FLOW</topic><topic>SUPERSONIC INLETS</topic><topic>SURFACE PROPERTIES</topic><topic>THICKNESS</topic><topic>TRANSONIC FLOW</topic><topic>TURBULENT BOUNDARY LAYER</topic><topic>TURBULENT FLOW</topic><topic>TWO DIMENSIONAL FLOW</topic><topic>VELOCITY</topic><topic>WUAFOSR2307A4</topic><toplevel>online_resources</toplevel><creatorcontrib>Sajben, M</creatorcontrib><creatorcontrib>Morris, M J</creatorcontrib><creatorcontrib>Kroutil, J C</creatorcontrib><creatorcontrib>Bogar, T J</creatorcontrib><creatorcontrib>MCDONNELL DOUGLAS RESEARCH LABS ST LOUIS MO</creatorcontrib><collection>DTIC Technical Reports</collection><collection>DTIC STINET</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Sajben, M</au><au>Morris, M J</au><au>Kroutil, J C</au><au>Bogar, T J</au><aucorp>MCDONNELL DOUGLAS RESEARCH LABS ST LOUIS MO</aucorp><format>book</format><genre>unknown</genre><ristype>RPRT</ristype><btitle>The Structure of Normal-Shock/Turbulent-Boundary-Layer Interactions Modified by Mass Removal</btitle><date>1989-02-28</date><risdate>1989</risdate><abstract>The effect of mass removal on nominally two-dimensional, normal- shock/turbulent-boundary-layer interactions was investigated experimentally. The flowfield had a freestream approach Mach number of 1.49 and a Reynolds number based on boundary layer momentum thickness of 14,600. Distributed mass removal was imposed over a length of approximately 40 initial displacement thickneses, the entire bleed zone being located immediately upstream of the shock. Detailed velocity field information was obtained for two flows, using a two component laser Doppler velocimeter system. The two time mean velocity components and the three Reynolds stress components were determined. Measurements were extended over both supersonic and subsonic regions. Surface pressure information was also obtained. The removed mass flow, averaged over the length of the bleed zone, was 2.5% and 8% of the freestream mass flow, for the two cases investigated. The data indicate that the mass removal initiates an oblique expansion wave at the leading edge of the bleed zone, increasing the Mach number of the normal shock. The expansion wave intersects the shock, initiating a weak shear layer in the subsonic flow. The boundary layer thickness remains approximately constant over the bleed zone. The streamwise velocity at the perforated plate is high, close to the freestream velocity. Turbulence intensity downstream of the bleed zone is comparable to the intensity of the approach boundary layer, in contrast to uncontrolled interactions in which the turbulence intensity is greatly amplified. Keywords: Transonic flow, Two dimensional flow, Mass transfer, Supersonic inlets.</abstract><oa>free_for_read</oa></addata></record>
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subjects	BLEED SYSTEMS BOUNDARY LAYER DISPLACEMENT DISTRIBUTION DOWNSTREAM FLOW EXPANSION EXPANSION WAVES FLOW FIELDS Fluid Mechanics FREE STREAM INTENSITY INTERACTIONS LASER VELOCIMETERS LAYERS LEADING EDGES LENGTH LOW STRENGTH MACH NUMBER MASS MASS FLOW MASS REMOVAL MASS TRANSFER MOMENTUM MOMENTUM TRANSFER PE61102F PRESSURE REMOVAL REYNOLDS NUMBER SHEAR PROPERTIES SHOCK WAVES STRESSES SUBSONIC CHARACTERISTICS SUBSONIC FLOW SUPERSONIC CHARACTERISTICS SUPERSONIC FLOW SUPERSONIC INLETS SURFACE PROPERTIES THICKNESS TRANSONIC FLOW TURBULENT BOUNDARY LAYER TURBULENT FLOW TWO DIMENSIONAL FLOW VELOCITY WUAFOSR2307A4
title	The Structure of Normal-Shock/Turbulent-Boundary-Layer Interactions Modified by Mass Removal
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