Investigation of turbulent transport in an axisymmetric sudden expansion
Simultaneous two-component laser velocimeter measurements were made in the incompressible turbulent flowfield following an axisymmetric sudden expansion. Mean velocities, Reynolds stresses, and triple products were measured and are presented at axial positions ranging from x/H = 0.2-14. A balance of...
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| Veröffentlicht in: | AIAA journal 1990-02, Vol.28 (2), p.276-283 |
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| creator | Gould, Richard D Stevenson, Warren H Thompson, H. Doyle |
| description | Simultaneous two-component laser velocimeter measurements were made in the incompressible turbulent flowfield following an axisymmetric sudden expansion. Mean velocities, Reynolds stresses, and triple products were measured and are presented at axial positions ranging from x/H = 0.2-14. A balance of the turbulent kinetic energy in the flow was performed. The production, convection, and diffusion of turbulent kinetic energy were computed directly from the experimental data using central differencing. A specially designed correction lens was employed to correct for optical aberrations introduced by the circular tube. This lens system allowed the accurate simultaneous measurement of axial and radial velocities in the test section. The experimental measurements were compared to predictions generated by a code that employed the k-epsilon turbulence model. Agreement was good for mean axial velocities, turbulent kinetic energy, and turbulent shear stresses. However, the modeled turbulent normal stresses where in poor agreement with the measured values. The modeled diffusion of turbulent kinetic energy was underpredicted in the region between the shear layer and the centerline of the flow giving lower values of turbulent kinetic energy downstream of the potential core than measured. |
| doi_str_mv | 10.2514/3.10385 |
| format | Article |
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Doyle</creator><creatorcontrib>Gould, Richard D ; Stevenson, Warren H ; Thompson, H. Doyle</creatorcontrib><description>Simultaneous two-component laser velocimeter measurements were made in the incompressible turbulent flowfield following an axisymmetric sudden expansion. Mean velocities, Reynolds stresses, and triple products were measured and are presented at axial positions ranging from x/H = 0.2-14. A balance of the turbulent kinetic energy in the flow was performed. The production, convection, and diffusion of turbulent kinetic energy were computed directly from the experimental data using central differencing. A specially designed correction lens was employed to correct for optical aberrations introduced by the circular tube. This lens system allowed the accurate simultaneous measurement of axial and radial velocities in the test section. The experimental measurements were compared to predictions generated by a code that employed the k-epsilon turbulence model. Agreement was good for mean axial velocities, turbulent kinetic energy, and turbulent shear stresses. However, the modeled turbulent normal stresses where in poor agreement with the measured values. 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The experimental measurements were compared to predictions generated by a code that employed the k-epsilon turbulence model. Agreement was good for mean axial velocities, turbulent kinetic energy, and turbulent shear stresses. However, the modeled turbulent normal stresses where in poor agreement with the measured values. The modeled diffusion of turbulent kinetic energy was underpredicted in the region between the shear layer and the centerline of the flow giving lower values of turbulent kinetic energy downstream of the potential core than measured.</description><subject>Exact sciences and technology</subject><subject>Fluid dynamics</subject><subject>Fluid Mechanics And Heat Transfer</subject><subject>Fundamental areas of phenomenology (including applications)</subject><subject>Hydrodynamic stability</subject><subject>incompressible fluids</subject><subject>Physics</subject><subject>turbulent flow</subject><subject>velocity measurement</subject><issn>0001-1452</issn><issn>1533-385X</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1990</creationdate><recordtype>article</recordtype><sourceid>CYI</sourceid><recordid>eNp9kM1KAzEUhYMoWKv4Ai5mIYqLqfmZJDNLKWoLBTcK7kKaSSRlmhmTjLRvb2qrRRdCILncL-fcewA4R3CEKSpuyQhBUtIDMECUkDw9Xw_BAEKIclRQfAxOQlikCvMSDcBk6j50iPZNRtu6rDVZ7P28b7SLWfTSha71MbMuk-msbFgvlzp6q7LQ17V2mV51CUpfT8GRkU3QZ7t7CF4e7p_Hk3z29Dgd381ySaoq5rzStSGMa6mJhAQpWrN5iTniqTZEYVVhXDII5zWCSLGaQcIg5gVhhlSGkSG43up2vn3v0-hiaYPSTSOdbvsgeEFhkbatEnn1L4lpCQmk5V5S-TYEr43ovF1KvxYIik2mgoivTBN5uZOUQcnGpICUDT84K0ky3jhfbDEngxQu-iBQVaWh0iqUp_bNti2tlGLR9t6lxL5NRFcbYfqmiXoV946_2b-DfQIbKJdM</recordid><startdate>19900201</startdate><enddate>19900201</enddate><creator>Gould, Richard D</creator><creator>Stevenson, Warren H</creator><creator>Thompson, H. 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A specially designed correction lens was employed to correct for optical aberrations introduced by the circular tube. This lens system allowed the accurate simultaneous measurement of axial and radial velocities in the test section. The experimental measurements were compared to predictions generated by a code that employed the k-epsilon turbulence model. Agreement was good for mean axial velocities, turbulent kinetic energy, and turbulent shear stresses. However, the modeled turbulent normal stresses where in poor agreement with the measured values. The modeled diffusion of turbulent kinetic energy was underpredicted in the region between the shear layer and the centerline of the flow giving lower values of turbulent kinetic energy downstream of the potential core than measured.</abstract><cop>Legacy CDMS</cop><pub>American Institute of Aeronautics and Astronautics</pub><doi>10.2514/3.10385</doi><tpages>8</tpages></addata></record> |
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| ispartof | AIAA journal, 1990-02, Vol.28 (2), p.276-283 |
| issn | 0001-1452 1533-385X |
| language | eng |
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| source | NASA Technical Reports Server; Alma/SFX Local Collection |
| subjects | Exact sciences and technology Fluid dynamics Fluid Mechanics And Heat Transfer Fundamental areas of phenomenology (including applications) Hydrodynamic stability incompressible fluids Physics turbulent flow velocity measurement |
| title | Investigation of turbulent transport in an axisymmetric sudden expansion |
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