Nonlinear Reynolds stress models and the renormalization group

Large Eddy and Reynolds-Averaged Navier - Stokes Simulations of Turbulent Flow Over an Airfoil, Assessment of turbulence-transport models including nonlinear RNG eddy-viscosity formulation and second-moment closure for flow over a backward-facing step, On explicit algebraic stress models for complex turbulent flows, Reynolds stress closure for nonequilibrium effects in turbulent flows, A relaxation approximation for time-dependent second-order effects in shear turbulence, Derivation of a second-order model for Reynolds stress using renormalization group analysis and the two-scale expansion technique, A nonequilibrium representation of the turbulent viscosity based on a two-scale turbulence theory, A new non-linear RANS model with enhanced near-wall treatment of turbulence anisotropy, Direct simulation of turbulent flow in a square duct: Reynolds-stress budgets, Development of turbulence models for shear flows by a double expansion technique, Renormalization group analysis of the Reynolds stress transport equation, Direct test of a nonlinear constitutive equation for simple turbulent shear flows using DNS data, Application of renormalization group analysis to two-phase turbulent flows with solid dust particles, An improved algebraic Reynolds stress model and corresponding nonlinear stress model, Statistical mechanics renormalization group calculations for inhomogeneous turbulence, A proper velocity scale for modeling subgrid-scale eddy viscosities in large eddy simulation, High-resolution finite volume methods on unstructured grids for turbulence and aeroacoustics, A connection between the Camassa–Holm equations and turbulent flows in channels and pipes, Turbulent transport modeling in low Mach number flows, Numerical simulation of a turbulent flow near a right-angled corner using the Speziale nonlinear model with RNG K-\(\varepsilon\) equations, Explicit algebraic Reynolds stress and non-linear eddy-viscosity models, Non-linear turbulence models for multiphase recirculating free-surface flow over stepped spillways, Turbulence theories and statistical closure approaches, A dynamic nonlinear subgrid-scale stress model, Numerical simulations of the Lagrangian averaged Navier–Stokes equations for homogeneous isotropic turbulence, Statistical theory of compressible turbulence based on mass-weighted averaging, with an emphasis on a cause of countergradient diffusion, Evaluation of an rng-based algebraic turbulence model, Review on the sensitization of turbulence models to rotation/curvature and the application to rotating machinery, Turbulence modeling for the axially rotating pipe from the viewpoint of analytical closures, The Navier-Stokes-alpha model of fluid turbulence, A Navier-Stokes solver for complex three-dimensional turbulent flows adopting non-linear modelling of the Reynolds stresses, A theoretical study of the turbulent diffusion in incompressible shear flows and in passive scalars, Anisotropic developments for homogeneous shear flows, Direct numerical simulations of the Navier-Stokes alpha model, Fluctuation effects on 3D Lagrangian mean and Eulerian mean fluid motion, Simplified statistical approach to complex turbulent flows and ensemble-mean compressible turbulence modeling, Analysis and modeling of subgrid scalar mixing using numerical data, On predicting the turbulence-induced secondary flows using nonlinear k-ε models, Analytical and phenomenological studies of rotating turbulence, Hybrid RANS/LES modelling with an approximate renormalization group. I: Model development, A novel implicit numerical treatment for non-linear turbulence models using high and low Reynolds number formulations, Unified turbulence models for LES and RANS, FDF and PDF simulations, Derivation of a model Reynolds-stress transport equation using the renormalization of the eddy-viscosity-type representation, Study on anisotropic buoyant turbulence model, On thermodynamics of turbulence: Development of first order closure models and critical evaluation of existing models, Camassa-Holm Equations as a Closure Model for Turbulent Channel and Pipe Flow, Renormalization group analysis of heat transfer in the presence of endothermic and exothermic chemical reactions, Unnamed Item, Remarks on turbulent constitutive relations

• Formulation of the theory of turbulence in an incompressible fluid
• Renormalization group analysis of turbulence. I: Basic theory
• Turbulence models and their applications to the prediction of internal flows: A review
• Invariance of turbulent closure models
• The relation between the flow of non-Newtonian fluids and turbulent Newtonian fluids
• The structure of isotropic turbulence at very high Reynolds numbers
• Calculation of turbulence-driven secondary motion in non-circular ducts
• Statistical analysis of the deviation of the Reynolds stress from its eddy-viscosity representation
• On nonlinear K-l and K-ε models of turbulence
• Infrared properties of an anisotropically stirred fluid
• Turbulent channel and Couette flows using an anisotropic k-epsilon model