The ternary-hybrid nanofluids are impressive sub-class of nanomaterials with enhanced thermal features. Based on such improved characteristics, various applications materials being predicted in the efficiency systems, extrusion mechanism, solar collectors, nuclear processes, energy production and many. objective this investigation is to report comparative analysis for traditional nanofluid, hybrid nanofluid models water base fluid. ternary consisting nickel, aluminum copper metallic particles. exploration heating capacitance updated radiative phenomenon. Moreover, flow associated stagnation point via vertically moving cylinder. properties each model along mathematical expressions characterized tabular form. nonlinear system representing numerically solved most technique namely Keller Box scheme. It has been noted that tangential velocity component declined larger values stretching ratio parameter. claimed performances nanoparticles more as compared nanomaterials. temperature profile reduces parameter which relatively slower ternary-nanofluid. simulated results present significance heat transfer devices, super-capacitors, automotive engines, exchangers, cooling computer chips etc.

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