Numerical simulation of ternary nanofluid flow with multiple slip and thermal jump conditions

This study addresses the consequences of thermal radiation with slip boundary conditions and a uniform magnetic field on steady 2D flow trihybrid nanofluids over spinning disc. The nanocomposites are synthesized by dispersion aluminum oxide (Al 2 O 3 ), zirconium dioxide (ZrO carbon nanotubes (CNTs) in water. phenomena characterized as nonlinear system PDEs. Using resemblance replacement, modeled equations simplified to nondimensional set ODEs. parametric continuation method has been used simulate resulting sets differential equations. Figures tables depict effects physical constraints energy velocity profiles. According this study, coefficient enormously decreases field. For larger approximations characteristics heat source term boosts profile. proposed model will assist meteorology, atmospheric studies, biological technology, power generation, automotive manufacturing, renewable conversions, detecting microchips. In regard such kinds practical applications, is being conducted. unique due ternary fluid, it could be other scholars acquire further information about nanofluid exchanger performance stability.