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4 May 2000 Advanced mixing nozzle concepts for COIL
Tientsai T. Yang, Y. C. Hsia, L. F. Moon, Robert A. Dickerson
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Proceedings Volume 3931, Gas, Chemical, and Electrical Lasers and Intense Beam Control and Applications; (2000) https://doi.org/10.1117/12.384273
Event: Symposium on High-Power Lasers and Applications, 2000, San Jose, CA, United States
Abstract
An advanced mixing nozzle concept has been developed for high chemical efficiency, high pressure recovery chemical oxygen-iodine laser applications. This concept incorporates the use of mixing tabs mounted at the nozzle exit plane for generating structured streamwise vorticity for mixing enhancement. The tab vortex generators produce strong streamwise vortices for mixing entrainment of highly compressible mixing layers. The optimal tab configuration, dimension, ramp angle relative to the flow direction, and tab spacing were determined by CFD analyses. The CFD computations show the entrainment and mixing produced by these mixing tabs are very efficient. The predicted mixing effectiveness of this nozzle configuration has been validated by experimental Pitot pressure scans of a three- blade nozzle hardware assembly.
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Tientsai T. Yang, Y. C. Hsia, L. F. Moon, and Robert A. Dickerson "Advanced mixing nozzle concepts for COIL", Proc. SPIE 3931, Gas, Chemical, and Electrical Lasers and Intense Beam Control and Applications, (4 May 2000); https://doi.org/10.1117/12.384273
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KEYWORDS
Oxygen
Nitrogen
Gas lasers
Helium
Chemical lasers
Iodine
Chemical oxygen iodine lasers
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