Rambabu, S.Parthasarathy, P.Velamati, V.2026-02-042022International Journal of Heat and Mass Transfer, 2022, 184, , pp. -179310https://doi.org/10.1016/j.ijheatmasstransfer.2021.122292https://idr.nitk.ac.in/handle/123456789/22653This paper presents numerical study to calculate convective heat transfer coefficients in reticulated porous media. In this study, the reticulated porous structures are modelled based on theoretical Kelvin model, representing the real porous structures. The geometry of these structures are generated with the help of in-house code and visualisation tool kit (VTK) libraries. The ideal and randomized Kelvin structures are generated for different PPI & porosities. These structures are utilized to calculate the fluid flow and heat transfer for different fluids of different Prandtl numbers (air, water & sea water). By varying the geometrical parameters, the influence of geometries on heat transfer between the flowing fluid and solid phase of open-cell foams are investigated. For this reason, the momentum and energy equations for forced convection in reticulated structures are solved using standard CFD-FVM approach. Based on the simulation outcomes, a new correlation is proposed to calculate the heat transfer coefficients in the reticulated porous structures. The proposed correlation is validated by comparing it with numerical and experimental data of real reticulated porous structures available in the literature. The effects of the Colburn j factor and performance factor are also computed to obtain the best outcome. © 2021AirComputational fluid dynamicsFlow of fluidsForced convectionGeometryHeat transfer coefficientsPorous materialsSeawaterAir-waterColburn j factorIn-house codesJ factorsKelvin modelNew correlationsOpen-cell foamsPorous mediumPorous structuresVisualization toolsPorosity