Thermal transport in oscillatory MHD Jeffrey nanofluid flow: Unravelling the impact of nanoparticle geometry and hybrid base fluid ratios in wavy channel
Key Points
Thermal transport dynamics reveal significant effects from nanoparticle geometry and fluid ratios, enhancing flow efficiency.
The optimal hybrid base fluid ratios improved thermal conductivity by 30% under oscillatory flow conditions.
Assessment focused on MHD (magnetohydrodynamic) oscillatory behaviors within a specially designed wavy channel.
These findings highlight the potential of optimizing nanofluid properties, calling for further studies in practical applications.
Thermal transport in oscillatory MHD Jeffrey nanofluid flow: Unravelling the impact of nanoparticle geometry and hybrid base fluid ratios in wavy channel | Synapse