Abstract
This attempt addresses endoscopic effect in peristaltic transport of Powell-Eyring nanofluid. Mixed convection is analyzed. The boundaries are of compliant nature. Chemical reaction, heat source/sink and viscous dissipation are accounted. Outer tube has convective conditions of heat and mass transfer. The modeled problems after employing lubrication technique are computed numerically. Physical interpretation of sundry variables on velocity, temperature, concentration and coefficient of heat transfer is arranged. The outcomes of study disclose strength in temperature and heat transfer rate for Brownian and thermophoresis parameter. There is a reduction in nanoparticle concentration for larger thermophoresis and chemical reaction parameter. Temperature and heat transfer coefficient are increasing functions of heat generation/absorption. Moreover temperature and concentration decay for Biot numbers.
•Mixed convective peristalsis flow in an endoscope is addressed.•Powell-Eyring fluid with nanoparticles is examined.•Chemical reaction and heat source/sink effects are outlined.•Problem is formulated with compliant channel walls.•Examination of numerical results have been presented.