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3D Simulation of Jet Breakup: Turbulent Mixing and Rayleigh-Taylor Instability Analysis

This report presents a comprehensive investigation into the turbulent mixing effects caused by jet breakup, utilizing a three-dimensional simulation conducted at New York Blue—a collaborative effort of Stony Brook University and BNL. The study focuses on the findings from the experimental work of W. Bo and the significant contributions of V. S. Smeeton and D. L. Youngs. It addresses Rayleigh-Taylor instabilities and their implications for nonideal mixing scenarios in fluid dynamics, further enriched by insights from H. Lim, J. Iwerks, J. Glimm, and D. H. Sharp.

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3D Simulation of Jet Breakup: Turbulent Mixing and Rayleigh-Taylor Instability Analysis

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  1. For Roman

  2. 3D Simulation for Primary Jet Breakup Work done by W.Bo, Stony Brook University Simulation is performed at NewYorkBlue (A 126Tf BGL/P at Stony Brook/BNL)

  3. Experiment : V. S. Smeeton and D. L. Youngs, Experimental investigation of turbulent mixing by Rayleigh-Taylor instability (part 3). AWE Report Number 0 35/87, 1987 Simulation : H. Lim, J. Iwerks, J. Glimm, and D. H. Sharp, Nonideal Rayleigh-Taylor Mixing The simulations reported here were performed on New York Blue, the BG/L computer operated jointly by Stony Brook University and BNL.

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