Numerical simulations of the NASA Juncture Flow Experiment are carried out, employing a Reynolds-stress model. A transformation of the length-scale determining variable is suggested for improving the numerical robustness of the model. Results obtained with different unstructured flow solvers on different sets of grids show very good agreement, except for velocity and Reynolds-stress profiles in the vicinity of the predicted separation region. A recently developed length-scale correction and, particularly, prescribing transition on the fuselage and wing increase the predicted size of the separation region, where the variation is on the order of the experimental uncertainty. Detailed comparison of velocity and Reynolds-stress profiles with ex...
A turbulence model study was performed for the wing–body configuration of NASA’s common research mod...
A length-scale correction term is developed for the SSG/LRR-w Reynolds-stress model that is based on...
Recent developments in Reynolds-stress modeling for applications in aircraft aerodynamics are presen...
Numerical simulations of the NASA Juncture Flow Experiment are carried out, employing a Reynolds-str...
Numerical simulations of the NASA Juncture Flow Experiment are carried out, employing a Reynolds-str...
NASA has been working toward designing and conducting a juncture flow experiment on a wing-body airc...
The NASA Juncture Flow experiment is a new effort whose focus is attaining validation data in the ju...
NASAs Transformational Tools and Technologies Project (T(cu.) is supporting a substantial effort to ...
A tailored strategy based on Reynolds stress modelling is suggested for improving the prediction of ...
The NASA Juncture Flow test, whose purpose is CFD validation for wing juncture trailing edge separat...
Values of three mean velocity components and six turbulence stresses measured in a turbulent shear l...
This paper describes a set of measurements taken at the Caltech Lucas Wind Tunnel, along with Comput...
Additional results about the wing-body of the NASA Common Research Model at flight conditions derive...
Wing-body juncture flow fields on commercial aircraft configurations are challenging to compute accu...
Values of three mean velocity components and six turbulence stresses measured in a juncture flow are...
A turbulence model study was performed for the wing–body configuration of NASA’s common research mod...
A length-scale correction term is developed for the SSG/LRR-w Reynolds-stress model that is based on...
Recent developments in Reynolds-stress modeling for applications in aircraft aerodynamics are presen...
Numerical simulations of the NASA Juncture Flow Experiment are carried out, employing a Reynolds-str...
Numerical simulations of the NASA Juncture Flow Experiment are carried out, employing a Reynolds-str...
NASA has been working toward designing and conducting a juncture flow experiment on a wing-body airc...
The NASA Juncture Flow experiment is a new effort whose focus is attaining validation data in the ju...
NASAs Transformational Tools and Technologies Project (T(cu.) is supporting a substantial effort to ...
A tailored strategy based on Reynolds stress modelling is suggested for improving the prediction of ...
The NASA Juncture Flow test, whose purpose is CFD validation for wing juncture trailing edge separat...
Values of three mean velocity components and six turbulence stresses measured in a turbulent shear l...
This paper describes a set of measurements taken at the Caltech Lucas Wind Tunnel, along with Comput...
Additional results about the wing-body of the NASA Common Research Model at flight conditions derive...
Wing-body juncture flow fields on commercial aircraft configurations are challenging to compute accu...
Values of three mean velocity components and six turbulence stresses measured in a juncture flow are...
A turbulence model study was performed for the wing–body configuration of NASA’s common research mod...
A length-scale correction term is developed for the SSG/LRR-w Reynolds-stress model that is based on...
Recent developments in Reynolds-stress modeling for applications in aircraft aerodynamics are presen...