Influence of one porous layer insert on the transient heat transfer in a tall annulus in presence of large source terms

Abstract: This paper provides a sensitivity analysis on the influence of one porous layer insert on the transient behavior of natural convection in a tall annular enclosure in presence of large source terms. The porous medium which partially fills the cavity is characterized by a low value of the Darcy number, typical of insulating materials and metallic foams, often employed in heat exchangers and other engineering applications. A stabilized, fully explicit version of the Compressibility Based Scheme is here employed a… Show more

“…In order to take into account conductive heat transfer within the computational domain, temperature field in correspondence of the equipment has been numerically reproduced by solving the wellknown energy conservation equations [34][35][36][37]. Partial differential equations (PDEs) constituting the employed mathematical model are available in the scientific literature and are not reported here for brevity.…”

A novel calibration system for heat flow meters: Experimental and numerical analysis

“…In order to take into account conductive heat transfer within the computational domain, temperature field in correspondence of the equipment has been numerically reproduced by solving the wellknown energy conservation equations [34][35][36][37]. Partial differential equations (PDEs) constituting the employed mathematical model are available in the scientific literature and are not reported here for brevity.…”

A novel calibration system for heat flow meters: Experimental and numerical analysis