Forced convection in 3D Maxwell nanofluid flow via Cattaneo–Christov theory with Joule heating

In this article, an investigation of the thermal and solutal energy transport in 3 D flow Maxwell nanofluid through a porous medium under influence magnetic field is performed. The heat generation source chemical reaction are also taken account as controlling agent for mass liquid. A novel idea Cattaneo-Christov theory Buongiorno model employed impact Joule heating present analysis. governing partial differential equations (PDEs) transformed into non-linear system ordinary (ODEs) by using similarities. solution similar ODEs constructed well known semi-analytical technique which homotopy analysis method. results explored form graphs. It observed that higher values decline field. temperature concentration distributions decrease with magnitude relaxation time phenomena, respectively. Moreover, enhances when Brownian motion nanoparticles increases while profile decreases. Also, it found increase resistive boosts up fluid motion.