Stratified heat transfer of magneto-tangent hyperbolic bio-nanofluid flow with gyrotactic microorganisms: Keller-Box solution technique

Abstract The purpose of the present investigation is to examine heat, mass and microorganism concentration transfer rates in magnetohydrodynamics (MHD) stratified boundary layer flow tangent hyperbolic nanofluid past a linearly, uniform stretching surface comprising gyrotactic microorganisms as well nanoparticles. governing PDEs with relevant end point conditions are molded into non-dimensional ordinary differential equation (ODE) form by means similarity transformation. numerical solution dimensionless problem acquired within frame robust Keller-Box technique. velocity, temperature, motile density investigated graphically context different significant parameters. Numerical results have been inspected via plots table (namely local Nusselt number, wall flux flux). This article proves that energy, reduce increase thermal, solutal stratification asserted outcomes beneficial enhance cooling heating processes, energy generation, thermal machines, solar systems, industrial processes etc.