2026-04-09T17:03:19Zhttps://www.radar-service.eu/oai/OAIHandler

10.35097/11672023-11-15T14:46:03Zradar4kit

10.35097/1167 Straub, Steffen Steffen Straub Karlsruhe Institute of Technology 2019 2023 Engineering turbulence liquid metals forced convection inhomogeneous boundary conditions Open Access Creative Commons Attribution Non Commercial No Derivatives 4.0 International Straub, Steffen Forooghi, Pourya Marocco, Luca Wetzel, Thomas Frohnapfel, Bettina This database contains numerical results of well-resolved large-eddy simulations of azimuthally inhomogeneous thermal boundary conditions in a fully developed forced convection pipe flow. Please refer to the README for further information. # Thermal Statistics of Turbulent Forced Convection Pipe Flow for Azimuthally Inhomogeneous Thermal Boundary Conditions This database features thermal statistics for fluids of Prandtl numbers Pr=0.71, 0.025 and bulk Reynolds numbers of Re=5300, 11700, 19000, 37700 in a fully-developed forced convection pipe flow. The wall heat flux is prescribed to be adiabatic on one half of the pipe and constant ("halfconst") or sinusoidal ("halfsin") on the other half. The detailed description of the numerical setup and discussion of the statistics contained in this database are given in the accompanying publication: Straub, Forooghi, Marocco, Wetzel, Frohnapfel. "Azimuthally inhomogeneous thermal boundary conditions in turbulent forced convection pipe flow for low to medium Prandtl numbers". International Journal of Heat and Fluid Flow. 2019 ## Contents - Global Nusselt numbers - Wall temperature and local Nusselt number - Temperature evaluated at five azimuthal locations - Turbulent heat fluxes evaluated at five azimuthal locations - Temperature variance evaluated at five azimuthal locations - Turbulent Prandtl number 10.5445/IR/1000093905 application/x-tar