Roberto Da Vià scite author profile

The study of turbulent heat transfer in liquid metal flows has gained interest because of applications in several industrial fields. The common assumption of similarity between the dynamical and thermal turbulence, namely, the Reynolds analogy, has been proven to be invalid for these fluids. Many methods have been proposed in order to overcome the difficulties encountered in a proper definition of the turbulent heat flux, such as global or local correlations for the turbulent Prandtl number and four parameter turbulence models. In this work we assess a four parameter logarithmic turbulence model for liquid metals based on the Reynolds Averaged Navier-Stokes (RAN) approach. Several simulation results considering fluids with P r = 0.01 and P r = 0.025 are reported in order to show the validity of this approach. The Kays turbulence model is also assessed and compared with integral heat transfer correlations for a wide range of Peclet numbers.

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Numerical validation of aκ-ω-κ_θ-ω_θheat transfer turbulence model for heavy liquid metals

Cerroni

Vià

Manservisi

et al. 2015

J. Phys.: Conf. Ser.

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An optimal control method for fluid structure interaction systems via adjoint boundary pressure

Chirco

Vià

Manservisi

2017

J. Phys.: Conf. Ser.

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Roberto Da Vià

A k–Ω–kθ–
Vià
¹
,
Manservisi
²
,
Menghini
³

2016
International Journal of Heat and Mass Transfer
23
0
14
0
View full text Add to dashboard Cite

Numerical simulation of forced and mixed convection turbulent liquid sodium flow over a vertical backward facing step with a four parameter turbulence model

A Logarithmic Turbulent Heat Transfer Model in Applications with Liquid Metals for Pr = 0.01–0.025

Numerical validation of aκ-ω-κ_θ-ω_θheat transfer turbulence model for heavy liquid metals

An optimal control method for fluid structure interaction systems via adjoint boundary pressure

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About

Roberto Da Vià

A k–Ω–kθ–Vià1, Manservisi2, Menghini3 2016International Journal of Heat and Mass Transfer230140View full textAdd to dashboardCite

Numerical simulation of forced and mixed convection turbulent liquid sodium flow over a vertical backward facing step with a four parameter turbulence model

A Logarithmic Turbulent Heat Transfer Model in Applications with Liquid Metals for Pr = 0.01–0.025

Numerical validation of aκ-ω-κθ-ωθheat transfer turbulence model for heavy liquid metals

An optimal control method for fluid structure interaction systems via adjoint boundary pressure

Contact Info

Product

Resources

About

A k–Ω–kθ–
Vià
¹
,
Manservisi
²
,
Menghini
³

2016
International Journal of Heat and Mass Transfer
23
0
14
0
View full text Add to dashboard Cite

Numerical validation of aκ-ω-κ_θ-ω_θheat transfer turbulence model for heavy liquid metals