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W2891927734 abstract "Tenth-order compact difference code Miranda is used to perform large-eddy simulation (LES) of a hydrogen gas--plastic mixing layer in a spherical geometry. Once the mixing layer has achieved self-similar growth, it is heated to 1 keV, and the second-order arbitrary Lagrangian-Eulerian (ALE) code Ares is used to simulate mixing layer evolution as it undergoes thermonuclear (TN) burn. Both premixed (in which deuterium and tritium are initially present in the gas) and nonpremixed (in which deuterium is initially present only in the plastic) variants are considered at Atwood numbers 0.05 and 0.50. The impact of turbulent mixing on mean TN reaction rate is examined, and a four-equation $ktext{ensuremath{-}}Ltext{ensuremath{-}}atext{ensuremath{-}}V$ Reynolds-averaged Navier-Stokes (RANS) model is presented. The $ktext{ensuremath{-}}Ltext{ensuremath{-}}atext{ensuremath{-}}V$ model, which represents an extension of the $ktext{ensuremath{-}}Ltext{ensuremath{-}}a$ model [Morgan and Wickett, Phys. Rev. E 91, 043002 (2015)] by the addition of a transport equation for the scalar mass fraction variance, is then applied in one-dimensional simulations of the reacting mixing layer under consideration. Excellent agreement is obtained between LES and RANS in total TN neutron production when fluctuations in reaction cross-section can be neglected." @default.
W2891927734 created "2018-09-27" @default.
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W2891927734 date "2018-09-17" @default.
W2891927734 modified "2023-10-06" @default.
W2891927734 title "Large-eddy simulation and Reynolds-averaged Navier-Stokes modeling of a reacting Rayleigh-Taylor mixing layer in a spherical geometry" @default.
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W2891927734 doi "https://doi.org/10.1103/physreve.98.033111" @default.
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