Roll of partial slip on Ellis nanofluid in the proximity of double diffusion convection and tilted magnetic field: Application of Chyme movement

The current study aims to investigate the effect of partial slip conditions over double diffusion convection. The phenomenon is applied with the inclined magnetic flux of peristaltic flow on Ellis nanofluid model in an asymmetric channel. The fundamental differential equations are constructed and solved through lubrication approximation that gives the coupled system of ordinary differential equations. This resultant system is further solved numerically, and graphic representation are used to physically comprehend the flow quantity data. The whole procedure is carried out under the trapping mechanism by drawing contour streamlines. The knowledge gained from this work will be useful in the creation of intelligent magneto-peristaltic pumps for specific heat and medication delivery phenomena.

Automated summary

The current study investigates the effect of partial slip conditions on double diffusion convection in an asymmetric channel using the inclined magnetic flux of peristaltic flow on Ellis nanofluid model. The fundamental differential equations are solved with lubrication approximation to obtain a coupled system of ordinary differential equations. Numerical solutions and graphical representations are used to understand the flow quantity data. The knowledge gained from this study will be helpful for developing intelligent magneto-peristaltic pumps for specific heat and medication delivery phenomena.