This study describes the analysis of nanofluid flow due to trapping along porous annulus with cilia in the presence of thermal radiation and heat absorption effects. In this examination, a partial differential equation is formulated to represent the two-dimensional movement of nanofluid. This system is developed in the cylindrical coordinates system and thereafter, a long wavelength approximation is introduced to attain the simplified form of the system. Emerging parameters are attained with nanoparticle’s effects in the system. Effective thermal conductivity models for heat transfer analysis are utilized. Numerical solution has been calculated for pressure rise and pressure gradient. Velocity and temperature distribution is also plotted for physical parameters. It is important to find that the trend of velocity is increasing by improving the quantity of nanoparticle concentration, radiation and mixed convection parameters. By increasing the size of the radius, velocity profile and pressure gradient have decreasing trend.