Numerical investigation of semi-confined turbulent slot jet impingement on a concave surface using an Al2O3–water nanofluid

Abstract: a b s t r a c tThis paper presents and discusses results of a computational study of the flow field and heat transfer characteristics for a turbulent slot jet of an Al 2 O 3 -water nanofluid impinging normally on to a semi-circular concave surface. A wide range of various flow and geometrical parameters, including the nanoparticle volume fraction ( ), jet Reynolds number (Re), and jet-to-target distance (h/B) have been considered. The results are presented in terms of the streamline patterns, local and average… Show more

“…In this paper, the turbulent flow is modeled based on the RNG k-𝜀 model [20], and the two-layer model is implemented for walls. Due to the additional source in the dissipation equation of the RNG k-𝜀 model, this model can predict the complexity of impinging jet flows on concave surfaces [21][22][23]. This turbulent model is defined by Eqs.…”

A detailed analysis of flow and heat transfer characteristics under a turbulent intermittent jet impingement on a concave surface

“…In this paper, the turbulent flow is modeled based on the RNG k-𝜀 model [20], and the two-layer model is implemented for walls. Due to the additional source in the dissipation equation of the RNG k-𝜀 model, this model can predict the complexity of impinging jet flows on concave surfaces [21][22][23]. This turbulent model is defined by Eqs.…”

A detailed analysis of flow and heat transfer characteristics under a turbulent intermittent jet impingement on a concave surface

Numerical Study of SiO2–Water Nanofluid Jet Impingement on Heated Surface

A numerical analysis on the heat transfer of jet impingement with nanofluid on a concave surface covered with metal porous block