Computational fluid dynamics (CFD) software that solves the Reynolds-averaged Navier-Stokes (RANS) equations has been in routine use for more than a quarter of a century. It is currently employed not only for basic research in fluid dynamics, but also for the analysis and design processes in many industries worldwide, including aerospace, automotive, power generation, chemical manufacturing, polymer processing, and petroleum exploration. A key feature of RANS CFD is the turbulence model. Because the RANS equations are unclosed, a model is necessary to describe the effects of the turbulence on the mean flow, through the Reynolds stress terms. The turbulence model is one of the largest sources of uncertainty in RANS CFD, and most models are k...
The present thesis aims to provide a validation database of existing RANS models for high Reynolds n...
The vision and final goal of DLR’s guiding concept of a virtual aircraft is the highly accurate nume...
A study on turbulence theory and modeling is conducted in the first and second part of this work. Th...
In current practice, it is often difficult to draw firm conclusions about turbulence model accuracy ...
The NASA Langley Turbulence Model Resource (TMR) website has been active for over five years. Its ma...
This work describes the development, implementation and preliminary stages of validation of well-kno...
Advances in turbulence modeling are needed in order to calculate high Reynolds number flows near the...
The objective of this work is to develop, verify, and incorporate the baseline two-equation turbulen...
The accuracy to which a turbulent boundary layer or wake can be predicted numerically depends on the...
The roadmap laid out in the CFD Vision 2030 document suggests that a decision to move away from RANS...
The implementation of the SSG/LRR-omega differential Reynolds stress model into the NASA flow solver...
The Spalart-Allmaras (S-A) turbulence model in NASA-Langley’s CFL3D and FUN3D flow solvers has been ...
With computational fluid dynamics (CFD) becoming a productive research and design tool, the requirem...
Here we provide an overview of some of the most commonly used turbulence models used in current CFD ...
Progress in modeling external aerodynamic flows achieved by using computations and experiments desig...
The present thesis aims to provide a validation database of existing RANS models for high Reynolds n...
The vision and final goal of DLR’s guiding concept of a virtual aircraft is the highly accurate nume...
A study on turbulence theory and modeling is conducted in the first and second part of this work. Th...
In current practice, it is often difficult to draw firm conclusions about turbulence model accuracy ...
The NASA Langley Turbulence Model Resource (TMR) website has been active for over five years. Its ma...
This work describes the development, implementation and preliminary stages of validation of well-kno...
Advances in turbulence modeling are needed in order to calculate high Reynolds number flows near the...
The objective of this work is to develop, verify, and incorporate the baseline two-equation turbulen...
The accuracy to which a turbulent boundary layer or wake can be predicted numerically depends on the...
The roadmap laid out in the CFD Vision 2030 document suggests that a decision to move away from RANS...
The implementation of the SSG/LRR-omega differential Reynolds stress model into the NASA flow solver...
The Spalart-Allmaras (S-A) turbulence model in NASA-Langley’s CFL3D and FUN3D flow solvers has been ...
With computational fluid dynamics (CFD) becoming a productive research and design tool, the requirem...
Here we provide an overview of some of the most commonly used turbulence models used in current CFD ...
Progress in modeling external aerodynamic flows achieved by using computations and experiments desig...
The present thesis aims to provide a validation database of existing RANS models for high Reynolds n...
The vision and final goal of DLR’s guiding concept of a virtual aircraft is the highly accurate nume...
A study on turbulence theory and modeling is conducted in the first and second part of this work. Th...