RT Journal Article ID 17eb6d5d1ddfd00f A1 Sudhagar, Palani A1 Kameswaran, Peri K. A1 Kumar, B. Rushi T1 THERMAL DISPERSION EFFECT ON NANOFLUID: A REVISED MODEL JF Journal of Porous Media JO JPM YR 2020 FD 2020-08-05 VO 23 IS 9 SP 923 OP 941 K1 nanofluid K1 mixed convection K1 thermophoresis K1 Brownian motion K1 porous medium K1 thermal dispersion AB The interaction of the mixed convective boundary layer nanofluid flow with the thermal dispersion of heat and mass transfers in an isothermal vertical wedge implanted in a porous medium has been investigated. Using nonsimilarity solutions, the energy equation, which includes the thermal dispersion, accelerates fully nonlinear partial differential equations. The governing coupled nonsimilarity equations have been solved numerically. An examination of present outcomes is made with the existing outcomes in the literature, and our outcomes are in great concurrence with the known outcomes. A parametric review demonstrating the impact of various physical parameters is performed. The set of numerical outcomes for the velocity, temperature, and nanoparticle concentration profiles, as well as the local Nusselt number and a nanoparticle Sherwood number, has been displayed graphically to indicate interesting features of the solutions. It is observed that the heat transfer rate increases as an increasing function of the thermal dispersion parameter for increasing the values of χ. This result may be useful in thermal dispersion flow switches because the flow rate of fluid increases and there is a cooling effect due to the fluid moving past the temperature scale. PB Begell House LK https://www.dl.begellhouse.com/journals/49dcde6d4c0809db,1350cb5d0e1bb84d,17eb6d5d1ddfd00f.html