Add to ORKGWe consider the dynamics of a thin liquid film falling down a uniformly heated wall. The heating sets up surface tension gradients that induce thermocapillary stresses on the free surface, thus affecting the evolution of the film. We model this thermocapillary flow by using a gradient expansion combined with a Galerkin projection with polynomial test functions for both velocity and temperature fields. We obtain equations for the evolution of the velocity and temperature amplitudes at first- and second-order in the expansion parameter. These equations are fully compatible close to criticality with the Benney long-wave expansion. Models of reduced dimensionality for the evolution of the local film thickness, flow rate and interfacial temperat...
Consider the dynamics of a thin film flowing down a heated substrate. The substrate heating generate...
Consider the dynamics of a thin film flowing down a heated substrate. The substrate heating generate...
Thin liquid films driven up an inclined plane by temperature-induced sur-face tension gradients have...
We consider the dynamics of a thin liquid film falling down a uniformly heated wall. The heating set...
We consider the dynamics of a thin liquid film falling down a uniformly heated wall. The heating set...
The stability of a thin, volatile liquid film falling under the influence of gravity over a locally ...
A thin liquid film subject to a temperature gradient is known to deform under the action of thermoca...
A thin liquid film subject to a temperature gradient is known to deform under the action of thermoca...
A thin liquid layer draining on a heated inclined plane is susceptible to long surface waves, and ca...
A thin liquid film subject to a temperature gradient is known to deform under the action of thermoca...
A thin liquid film subject to a temperature gradient is known to deform under the action of thermoca...
Accurate low-dimensional models for the dynamics of falling liquid films subject to localized or tim...
Consider the dynamics of a thin film flowing down a heated substrate. The substrate heating generate...
Consider the dynamics of a thin film flowing down a heated substrate. The substrate heating generate...
Purpose By solving a long-wave evolution model numerically for power-law fluids, the authors aim to...
Consider the dynamics of a thin film flowing down a heated substrate. The substrate heating generate...
Consider the dynamics of a thin film flowing down a heated substrate. The substrate heating generate...
Thin liquid films driven up an inclined plane by temperature-induced sur-face tension gradients have...
We consider the dynamics of a thin liquid film falling down a uniformly heated wall. The heating set...
We consider the dynamics of a thin liquid film falling down a uniformly heated wall. The heating set...
The stability of a thin, volatile liquid film falling under the influence of gravity over a locally ...
A thin liquid film subject to a temperature gradient is known to deform under the action of thermoca...
A thin liquid film subject to a temperature gradient is known to deform under the action of thermoca...
A thin liquid layer draining on a heated inclined plane is susceptible to long surface waves, and ca...
A thin liquid film subject to a temperature gradient is known to deform under the action of thermoca...
A thin liquid film subject to a temperature gradient is known to deform under the action of thermoca...
Accurate low-dimensional models for the dynamics of falling liquid films subject to localized or tim...
Consider the dynamics of a thin film flowing down a heated substrate. The substrate heating generate...
Consider the dynamics of a thin film flowing down a heated substrate. The substrate heating generate...
Purpose By solving a long-wave evolution model numerically for power-law fluids, the authors aim to...
Consider the dynamics of a thin film flowing down a heated substrate. The substrate heating generate...
Consider the dynamics of a thin film flowing down a heated substrate. The substrate heating generate...
Thin liquid films driven up an inclined plane by temperature-induced sur-face tension gradients have...