Heat Transfer Analysis of 3-D Viscoelastic Nanofluid Flow Over a Convectively Heated Porous Riga Plate with Cattaneo-Christov Double Flux

The impact of heat-absorbing viscoelastic nanofluidic flow along with a convectively heated porous Riga plate Cattaneo-Christov double flux was analytically investigated. Buongiorno model nanofluid implemented the diversity Brownian motion and thermophoresis. Making use transformations; PDE systems are altered into an ODE system. We homotopy analysis method to solve these analytically. reaction apposite parameters on fluid velocity, temperature, nanoparticle volume fraction skin friction coefficients (SFC), local Nusselt number Sherwood shown vividly explicit details. It is found that velocities reflect declining nature for development porosity parameters. liquid heat becomes rich when escalating radiation parameter. In addition, displays towards higher amount thermophoresis parameter, whereas inverse trend obtained also temperature increased in compared viscous nanofluid. When we change from absorption generation, rises. suppressed medium stationary absorption/generation cases.