Current Search: Kawashima, Emilia (x) » FAU (x)
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Title
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Urban Fancy 2x.
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Creator
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Sainvil, Elisabeth, Kawashima, Emilia, Dorothy F. Schmidt College of Arts and Letters, Brooks, Clarence, Department of Theatre and Dance
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Abstract/Description
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The Dances We Dance Performance Showcase is a capstone experience for students enrolled in all levels of the Department of Theatre and Dance performance course offerings.
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Date Issued
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2010
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PURL
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http://purl.flvc.org/fau/fd/FAdwd10urbn
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Subject Headings
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Dance performance
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Format
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Set of related objects
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Title
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Mystery Twofold.
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Creator
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Fichera, Maryann [Choreographer], Kawashima, Emilia [Choreographer], Dorothy F. Schmidt College of Arts and Letters, Glass, Philip [Music], Department of Theatre and Dance
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Abstract/Description
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The Dances We Dance Performance Showcase is a capstone experience for students enrolled in all levels of the Department of Theatre and Dance performance course offerings.
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Date Issued
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2009
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PURL
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http://purl.flvc.org/fau/fd/FAdwd09mys
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Subject Headings
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Dance performance
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Format
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Set of related objects
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Title
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Rapid distortion theory for rotor inflows.
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Creator
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Kawashima, Emilia, Glegg, Stewart A. L., College of Engineering and Computer Science, Department of Ocean and Mechanical Engineering
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Abstract/Description
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For aerospace and naval applications where low radiated noise levels are a requirement, rotor noise generated by inflow turbulence is of great interest. Inflow turbulence is stretched and distorted as it is ingested into a thrusting rotor which can have a significant impact on the noise source levels. This thesis studies the distortion of subsonic, high Reynolds number turbulent flow, with viscous effects ignored, that occur when a rotor is embedded in a turbulent boundary layer. The analysis...
Show moreFor aerospace and naval applications where low radiated noise levels are a requirement, rotor noise generated by inflow turbulence is of great interest. Inflow turbulence is stretched and distorted as it is ingested into a thrusting rotor which can have a significant impact on the noise source levels. This thesis studies the distortion of subsonic, high Reynolds number turbulent flow, with viscous effects ignored, that occur when a rotor is embedded in a turbulent boundary layer. The analysis is based on Rapid Distortion Theory (RDT), which describes the linear evolution of turbulent eddies as they are stretched by a mean flow distortion. Providing that the gust does not distort the mean flow streamlines the solution for a mean flow with shear is found to be the same as the solution for a mean potential flow with the addition of a potential flow gust. By investigating the inflow distortion of small-scale turbulence for various simple flows and rotor inflows with weak shear, it is shown that RDT can be applied to incompressible shear flows to determine the flow distortion. It is also shown that RDT can be applied to more complex flows modeled by the Reynolds Averaged Navier Stokes (RANS) equations.
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Date Issued
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2013
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PURL
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http://purl.flvc.org/fau/fd/FA0004030
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Subject Headings
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Computational fluid dynamics, Fluid dynamic measurements, Fluid mechanics -- Mathematical models, Turbulence -- Computer simulation, Turbulence -- Mathematical models
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Format
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Document (PDF)