Print Email Facebook Twitter Scalar statistics in variable property turbulent channel flows Title Scalar statistics in variable property turbulent channel flows Author Patel, A. (TU Delft Energy Technology) Boersma, B.J. (TU Delft Energy Technology) Pecnik, Rene (TU Delft Energy Technology) Date 2017 Abstract Direct numerical simulation of fully developed, internally heated channel flows with isothermal walls is performed using the low-Mach-number approximation of Navier-Stokes equation to investigate the influence of temperature-dependent properties on turbulent scalar statistics. Different constitutive relations for density ρ, viscosity μ, and thermal conductivity λ as a function of temperature are prescribed in order to characterize the turbulent scalar statistics. It is shown that the dominant effect caused by property variations on scalar statistics can be parameterized by two nondimensional parameters, namely the semilocal Reynolds number Re★τ≡Reτ√(¯ρ/ρw)/(¯¯μ/μw) (the bar and subscript w denote Reynolds averaging and wall value respectively, while Reτ is the friction Reynolds number based on wall values), and the local Prandtl number Pr★=Prw(¯¯μ/μw)/(¯λ/λw) (Prw is the molecular Prandtl number based on wall values). Near-wall gradients in Re★τ modulate the turbulent heat flux generation mechanism because of structural changes in turbulence. However, the influence of these modulations on the inner scaling of turbulent heat conductivity normalized by local mean viscosity is shown to be weak. Using this observation, a temperature transformation is derived that is invariant of Re★τ variations and only exhibits a Pr★-dependent shift. Subject Boundary layersForced convectionTurbulenceFluid Dynamics To reference this document use: http://resolver.tudelft.nl/uuid:a6fbc4f8-e78c-4cc9-a748-73c0c1735244 DOI https://doi.org/10.1103/PhysRevFluids.2.084604 ISSN 2469-990X Source Physical Review Fluids, 2 (8) Part of collection Institutional Repository Document type journal article Rights © 2017 A. Patel, B.J. Boersma, Rene Pecnik Files PDF PhysRevFluids.2.084604.pdf 1.23 MB Close viewer /islandora/object/uuid:a6fbc4f8-e78c-4cc9-a748-73c0c1735244/datastream/OBJ/view