Instabilities of a power–law film over an inclined permeable plane: A two–sided model

“…where D ij is the i j-term of the Chebyshev collocation derivative matrix [49], and η j the value of the apparent viscosity pertaining to the y j grid point. In order to deal with the unbounded shear stress gradients associated with the non-Newtonian power-law model, we have adjusted the power-law model by replacing the apparent viscosity ν app as follows [51][52][53]:…”

“…The wall shear stress is given by Equation (52). Due to the cumbersome structure of the relationship, it was not feasible to determine analytically some characteristics like the mean, maximum, and minimum values of the wall shear stress.…”

Pulsating Flow of an Ostwald—De Waele Fluid between Parallel Plates

“…where D ij is the i j-term of the Chebyshev collocation derivative matrix [49], and η j the value of the apparent viscosity pertaining to the y j grid point. In order to deal with the unbounded shear stress gradients associated with the non-Newtonian power-law model, we have adjusted the power-law model by replacing the apparent viscosity ν app as follows [51][52][53]:…”

“…The wall shear stress is given by Equation (52). Due to the cumbersome structure of the relationship, it was not feasible to determine analytically some characteristics like the mean, maximum, and minimum values of the wall shear stress.…”

Pulsating Flow of an Ostwald—De Waele Fluid between Parallel Plates

The mechanism of long-wave instability in a shear-thinning film flow on a porous substrate

Dynamical responses of inclined heated channel of MHD dusty fluids through porous media