Diffusion of heat and mass in flow of viscous fluid over a moving porous and rotating disk

Abstract: In this paper, we have studied the transport of heat and mass in viscous fluid flow over a disk, rotating with variable angular velocity, whereas, both the nonuniform injection and suction velocities can take place through its porous surface. Moreover, the disk is stretched (shrunk) with variable velocity in its own plane. Besides that the temperature and concentration functions, defined at the surface of disk, are assumed nonuniform and nonlinear, whereas, their nonlinear nature can be expressed in the form o… Show more

“…The pressure, temperature and concentration fields are denoted by P(𝜂), 𝜃(𝜂), and 𝜙(𝜂) respectively. The implementation of Equations ( 10), (11), and ( 19) onto a governing system of Equations ( 12)-( 17) lead to the following [20,30,35,36]:…”

“…This is owing to the prime fact that flows through rotating surfaces of electrically conducted materials not only involve in theoretical aspects, but they also have practical importance and frequently occur in thermal power generation, extraction process, filtration, swirl generators, and aerodynamic applications [1][2][3][4][5][6]. Ever since von Kármán [7] derived the steady-state simplified form of viscous fluid equations, which govern the flow above an infinite spinning disk and several modifications of it have fascinated many scientists [8][9][10][11].…”

Regression analysis of horizontal magnetic field in thermophysical convective flow of nanofluid

“…The pressure, temperature and concentration fields are denoted by P(𝜂), 𝜃(𝜂), and 𝜙(𝜂) respectively. The implementation of Equations ( 10), (11), and ( 19) onto a governing system of Equations ( 12)-( 17) lead to the following [20,30,35,36]:…”

“…This is owing to the prime fact that flows through rotating surfaces of electrically conducted materials not only involve in theoretical aspects, but they also have practical importance and frequently occur in thermal power generation, extraction process, filtration, swirl generators, and aerodynamic applications [1][2][3][4][5][6]. Ever since von Kármán [7] derived the steady-state simplified form of viscous fluid equations, which govern the flow above an infinite spinning disk and several modifications of it have fascinated many scientists [8][9][10][11].…”

Regression analysis of horizontal magnetic field in thermophysical convective flow of nanofluid

Numerical and regression analysis of horizontal magnetic field in slippery nanofluid flow with Arrhenius activation energy