Impact of a floating flexible plate on the stability of double-layered falling flow.

The hydrodynamic stability behavior of a two-layer falling film is explored with a floating flexible plate on the top layer surface. The stress balance at the surface is modeled using a modified membrane equation. There is an insoluble surfactant at the liquid-liquid interface of the flow system. The linear instability of perturbation waves is captured by numerically solving the generalized Orr-Sommerfeld eigenvalue problem using the Chebyshev spectral collocation technique. Four different types of linear stability modes are identified: surface mode (SM), interface mode (IM), interface surfactant mode (ISM), and shear mode (SHM). The floating flexible plate has an inferior impact on all the existing modes in the longwave zone. However, a significant influence is noticed for the finite wave numbers. The surface and interface wave instabilities can be suppressed in the smaller wavenumber zone by imposing higher structural rigidity and uniform thickness of the flexible plate. The stabilizing nature of the surface mode becomes more powerful when the top layer viscosity is dominant. A new interfacial instability emerges when the top layer is less viscous than the lower one. At moderate Reynolds numbers, the behavior of interface mode is different in two different zones m r < 1 and m r > 1 , where m and r denote the viscosity and density ratio, respectively. Further, the unstable shear modes induced by the top and bottom layers are detected under the low inclination angles with a strong inertia force. The occurrence of the shear modes requires the viscosity and density of the lower layer to be much higher than those of the upper layer. The influence of characteristic parameters of the flexible plate on the lower layer shear mode is not very sensitive. Finally, the competition between the different modes for dominance of stability boundaries is also discussed. • The hydrodynamic stability of a two-layer falling film is explored with a floating flexible plate on the top surface. • The generalized Orr-Sommerfeld eigenvalue problem is solved using Chebyshev spectral collocation technique. • Four modes, known as surface, interface, interface surfactant, and shear modes are detected. • The flexible plate has an inferior impact in the longwave zone, but significant effect in the finite wave number zone. • The plate's rigidity and thickness suppress the surface and interface wave instability in the smaller wavenumber zone. [ABSTRACT FROM AUTHOR]