Road ahead for comparative study of entropy induced model through hybrid and ternary hybrid nanomaterials

Magnetohydrodynamic (MHD) Darcy-Forchheimer flow of ternary hybrid nanoliquid is addressed. Stretching cylinder is produced liquid flow. Entropy generation is taken into account. Ternary nanofluids consist of three nanoparticles in base fluid. Here silver, disulfide molybdenum and multi-walled carbon nanotubes are used as nanoparticles and engine oil as base liquid. Joule heating, thermal radiation, dissipation and heat generation are accounted. Numerical solution by ND-solve technique for nonlinear differential system is constructed. Behaviors for several parameters on the quantities are explored. Thermal field and entropy generation against magnetic field are opposite to that of velocity. Radiation for temperature and entropy rate has similar scenario. Temperature against Prandtl number is decreased. Velocity gradient and Nusselt number versus sundry variables are explored. Larger values of magnetic field effect have opposite trend for drag force and rate of heat transport. An enhancement in thermal transfer rate is seen for radiation.