Document Type : Review Article

Authors

• Tagallamudi Srinivasa Rao ¹
• Matam Mohan Babu ²
• Ramesh Reddy Bojja ³
• Naga Santoshi P. ⁴
• Venkata Ramana Reddy Gurrampati ¹

¹ Department of Mathematics, Koneru Lakshmaiah Education Foundation, Vaddeswaram, Andhra Pradesh, India-522302.

² Department of Civil Engineering, Sri Venkatesewara College of Engineering, Chittoor, India-517127.

³ Department of Mathematics, Lakireddy Bali Reddy College of Engineering, Mylavaram, Andhra Pradesh, India-521530.

⁴ Department of Mathematics, Singareni Collieries Women's Degree & PG College, Kothagudem-507 101.

Abstract

The main goal of the work is to investigate to the influence the magnetohydrodynamic slip flow through a nonlinear porous stretching surface's upper Maxwell Casson convected nanofluid boundary layer flow was considered. The governing partial differential equations are transformed into nonlinear ordinary differential equations using the proper similarity transformations. The Shooting method was utilized to achieve the numerical solution of the updated equations utilizing the Runge-Kutta-Fehlberg approach. A wide range of essential fluid characteristics were thoroughly examined, including the Schmidt number, magnetic parameter, temperature slip parameter, concentration slip parameter, velocity, and nonlinear stretching parameter. Using graphs and tables, the impacts on temperature, concentration, and velocity were examined and reported. The investigation included calculating and thoroughly debating the skin friction coefficient, local Sherwood numbers, and local Nusselt numbers.

Keywords

• Stretching sheet
• Magnetic field
• Skin-Friction
• Nusselt number
• Sherwood number

Main Subjects

• Engineering