Thermodynamics Examination of Fe3O4-CoFe2O4/Water + EG Nanofluid in a Heated Plate: Crosswise and Stream-wise Aspects

This research work executes the activation energy and covalent bonding reaction aspects in the flow of hybrid ferroliquid across a stream-wise and crosswise position. Substance of Fe3O4 and CoFe2O4 are mixed with base liquid water + EG is considered as hybrid ferroliquid. Usual form of heat absorption and heat generation is taken in the thermal equation and magnetic field is taken in the momentum equation. The ODEs are obtained by conversion of PDEs through transformation and solved by RKF-45 scheme. Comparison of ferroliquid and hybrid ferroliquid is made with flow variables and presented in graph format. Computational values of heat transportation rate, mass transportation rate and drag friction are displayed through tabular data. Upshot bring out that the reaction rate decays the concentration while activation energy enrich the temperature. Also in both stream-wise and crosswise position, hybrid ferroliquid is lower than ferroliquid and which is same in concentration but reverted in temperature.