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Turbulence Modeling Insights into Supercritical Nitrogen Mixing Layers

Author

Listed:
  • Leandro Magalhães

    (LAETA-Aeronautics and Astronautics Research Center, University of Beira Interior, 6201-001 Covilhã, Portugal)

  • Francisco Carvalho

    (LAETA-Aeronautics and Astronautics Research Center, University of Beira Interior, 6201-001 Covilhã, Portugal)

  • André Silva

    (LAETA-Aeronautics and Astronautics Research Center, University of Beira Interior, 6201-001 Covilhã, Portugal)

  • Jorge Barata

    (LAETA-Aeronautics and Astronautics Research Center, University of Beira Interior, 6201-001 Covilhã, Portugal)

Abstract

In Liquid Rocket Engines, higher combustion efficiencies come at the cost of the propellants exceeding their critical point conditions and entering the supercritical domain. The term fluid is used because, under these conditions, there is no longer a clear distinction between a liquid and a gas phase. The non-conventional behavior of thermophysical properties makes the modeling of supercritical fluid flows a most challenging task. In the present work, a Reynolds Averaged Navier Stokes (RANS) computational method following an incompressible but variable density approach is devised on which the performance of several turbulence models is compared in conjunction with a high accuracy multi-parameter equation of state. In addition, a suitable methodology to describe transport properties accounting for dense fluid corrections is applied. The results are validated against experimental data, making it clear that there is no trend between turbulence model complexity and the quality of the produced results. For several instances, one- and two-equation turbulence models produce similar results. Finally, considerations about the applicability of the tested turbulence models in supercritical simulations are given based on the results and the structural nature of each model.

Suggested Citation

  • Leandro Magalhães & Francisco Carvalho & André Silva & Jorge Barata, 2020. "Turbulence Modeling Insights into Supercritical Nitrogen Mixing Layers," Energies, MDPI, vol. 13(7), pages 1-20, April.
  • Handle: RePEc:gam:jeners:v:13:y:2020:i:7:p:1586-:d:339786
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    Cited by:

    1. Jaya Vignesh Madana Gopal & Robert Morgan & Guillaume De Sercey & Konstantina Vogiatzaki, 2023. "Overview of Common Thermophysical Property Modelling Approaches for Cryogenic Fluid Simulations at Supercritical Conditions," Energies, MDPI, vol. 16(2), pages 1-30, January.

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