Rambabu, S.Parthasarathy, P.Velamati, V.2026-02-042023Chemical Engineering Science, 2023, 274, , pp. -92509https://doi.org/10.1016/j.ces.2023.118664https://idr.nitk.ac.in/handle/123456789/21857The purpose of this numerical investigation is to characterize the longitudinal dispersion coefficients in open-cell reticulated porous structures. Open-cell foams are modelled using idealized Kelvin cell structures. Using the conventional Navier–Stokes equation, airflow has been calculated through various porous structures. Along with the flow, the dispersion of a tracer fluid is traced across the structures and analyzed in terms of the effective dispersion coefficient. Using direct pore level simulations (DPLS), a parametric study is performed to understand the influence of geometrical parameters on the dispersion in porous media. To evaluate the longitudinal dispersion coefficient (LDC), the analytic solution gradients were fitted into the simulated gradients. From the results, a new characteristic length correlation is proposed to calculate the Peclet number, and it is compared with experimental and numerical data that are available in the literature. © 2023 Elsevier LtdCellsCytologyDispersionsGeometryNavier Stokes equationsPorosityCharacterizationDirect pore level simulationKelvin cellsLongitudinal dispersion coefficientLongitudinal dispersionsNumerical investigationsOpen-cellOpen-cell foamsPorous mediumPorous structuresPorous materials