Shadowgraphy of the end-effects regime produced by clustered rockets etc15 Tracking Number 475Presentation: Session: Reacting and compressible flows 2 Room: Room F Session start: 10:30 Thu 27 Aug 2015 Andres Canchero andres.canchero@utexas.edu Affifliation: The University of Texas at Austin Raymundo Rojo raymundo.rojo46@gmail.com Affifliation: The University of Texas at Austin Charles Tinney cetinney@utexas.edu Affifliation: The University of Texas at Austin Nathan Murray nmurray@olemiss.edu Affifliation: The University of Mississippi Joseph Ruf joseph.h.ruf@nasa.gov Affifliation: NASA Marshall Space Flight Center Topics: - Acoustics of turbulent flows, - Reacting and compressible turbulence, - Jets and wakes Abstract: The plume produced by a cluster of two high area-ratio thrust optimized parabolic contour nozzles is visualized by way of retroreflective shadowgraphy. Both steady and transient operations of the nozzles (start-up and shut-down) were conducted in the anechoic chamber and high speed flow facility at The University of Texas at Austin. Both nozzles exhibit free shock separated flow, restricted shock separated flow and an end-effects-regime prior to flowing full. Radon transforms of the shadowgraphy images are used to identify the locations in the flow where sound waves are being generated. During these off design operations of the nozzles, most sound waves are generated by turbulence interactions with the shock cells located in the supersonic annular plume. During the end-effects-regime, this supersonic annular plume is shown to flap violently, thus providing a first principals understanding of the sources of most intense loads during engine ignition. |