Time-dependent squeezing flow analysis of trihybrid nanofluid within two parallel plates: Targeted drug delivery system

The recent study on the utilization of one or more nanoparticles within the base liquid performs its specialty in various industries, engineering, biomedicine, biomedical, etc. One of the major aspects is the targeted drug delivery processes which are optimized by the inclusion of volume fraction of the nanoparticles along with their physical properties. Therefore, leading to the motivation, the present investigation aims to develop an unsteady squeezing flow model for the flow of trihybrid nanomaterial among two parallel plates used in drug delivery processes. In particular, alloy like AA7072, AA7075, and Ti6Al4V plays their significant contribution in this study. The conducting fluid between the squeezing plates embedding within a porous medium influences the fluid motion. Further, the interaction of thermal radiation along with heat source energizes the flow phenomena. The suitable choice of similarity rules helps in converting dimensional governing equations into nondimensional for. Further, the numerical scheme is adopted for the solution of the transformed flow phenomena.