Unsteady Radiative Maxwell Fluid Flow over an Expanding Sheet with Sodium Alginate Water-Based Copper-Graphene Oxide Hybrid Nanomaterial: An Application to Solar Aircraft

The primary heat source from the sunlight is solar energy, which used in photovoltaic panels, power plates, streetlights, and solar-based hybrid nanocomposites. A nanofluid traversing an expanding sheet this investigation. Maxwell fluid stream with two nanoparticles going towards a trough parabolic form situated within aircraft wing to investigate phenomena of transfer rate. term thermal radiation was introduced describe occurrence. effectiveness transmission airplane wings assessed by taking into account unique such as magnetic field source. bvp4c procedure applied quantitatively explain energy motion equations MATLAB software. copper (Cu) graphene oxide (GO) nanosolid particles are mixed sodium alginate (SA), common liquid, particles. Numerous control variables thoroughly examined, including temperature, shear stress, motion, friction component, Nusselt number. skin-friction coefficient upsurges growing impression. upsurge Deborah number reduces coefficient. impression declines transport rate but increase When it comes analysis, efficiency substantially superior that regular nanofluid.