East European Journal of Physics, Journal Year: 2024, Volume and Issue: 4, P. 122 - 133

Published: Dec. 8, 2024

The significance of Ree-Eyring ternary hybrid nanofluid flow lies in its potential applications various fields. By incorporating three different types nanoparticles into a base fluid using the model, this innovative offers enhanced thermal conductivity, heat transfer efficiency, and rheological properties. These characteristics are particularly valuable industries such as electronics cooling, solar energy systems, exchangers, where efficient management is crucial. Additionally, unique behavior nanofluids can provide advantages processes like drilling, lubrication, drug delivery. Under Thompson-Troian boundary conditions, study aims to theoretically analyse 2D radiative over an angled sheet with Cattaneo-Christov flux higher order chemical reaction parameters. In express them ordinary differential equations (ODEs), flow-driven undergo suitable similarity transformations. ensuing system resolved by employing bvp4c approach. main takeaway from that relaxation parameter reduces width temperature profile velocity minimized adjusting slip parameter. concentration increases same (fluid velocity). addition, we found skin friction coefficient strongly correlated negatively parameter, positively (thermal) significantly through Nusselt number. When Brinkman number increases, Bejan drops. Furthermore, rise radiation leads escalation both entropy generation We observed worthy agreement when checked outcomes investigation prior effects.

Language: Английский