NUMERICAL INVESTIGATION OF JET IMPINGEMENT WITH CROSS FLOW—COMPARISON OF YANG-SHIH AND STANDARDk–ϵ TURBULENCE MODELS

“…The model [18] is a semi-empirical model based on model transport equations for the turbulence kinetic energy k and its dissipation rate 3. The model transport equation for k is derived from the exact equation, while the model transport equation for 3 was obtained using physical reasoning and bears little resemblance to its mathematically exact counterpart.…”

Numerical study on fast filling of 70 MPa type III cylinder for hydrogen vehicle

“…The model [18] is a semi-empirical model based on model transport equations for the turbulence kinetic energy k and its dissipation rate 3. The model transport equation for k is derived from the exact equation, while the model transport equation for 3 was obtained using physical reasoning and bears little resemblance to its mathematically exact counterpart.…”

Numerical study on fast filling of 70 MPa type III cylinder for hydrogen vehicle

“…The comparison of Yang-Shih and standard k-e turbulence model was studied by ElGabry and Kaminski [19]. They showed that the standard k-e turbulence model is better at a high Reynolds number and it is not possible to conclude that one turbulence model is more accurate than another.…”

Numerical and experimental study of turbulent impinging twin-jet flow

“…It was shown that with inclusion of the conduction heat transfer, the numerical results compared favorably with the available experimental results. El-Gabry and Kaminski [41] used the computational fluid dynamics models to predict the heat transfer distribution on a smooth surface under an array of angled impinging jets. Two turbulence models were examined, the standard j-e model and the Yang-Shih model.…”

Numerical study of transient conjugate heat transfer of a turbulent impinging jet