TY - JOUR
T1 - Dynamics of a Reactive Thin Film
AU - Trevelyan, Philip Michael Joseph
AU - Pereira, A.
AU - Kalliadasis, Serafim
PY - 2012/7/9
Y1 - 2012/7/9
N2 - Consider the dynamics of a thin film flowing down an inclined plane under the action of gravity and in the presence of a first-order exothermic chemical reaction. The heat released by the reaction induces a thermocapillary Marangoni instability on the film surface while the film evolution affects the reaction by influencing heat/mass transport through convection. The main parameter characterizing the reaction-diffusion process is the Damköhler number. We investigate the complete range of Damköhler numbers. We analyze the steady state, its linear stability and nonlinear regime. In the latter case, long-wave models are compared with integral-boundary-layer ones and bifurcation diagrams for permanent solitary wave solutions of the different models are constructed. Time-dependent computations with the integral-boundary layer models show that the system approaches a train of coherent structures that resemble the solitary pulses obtained in the bifurcation diagrams.
AB - Consider the dynamics of a thin film flowing down an inclined plane under the action of gravity and in the presence of a first-order exothermic chemical reaction. The heat released by the reaction induces a thermocapillary Marangoni instability on the film surface while the film evolution affects the reaction by influencing heat/mass transport through convection. The main parameter characterizing the reaction-diffusion process is the Damköhler number. We investigate the complete range of Damköhler numbers. We analyze the steady state, its linear stability and nonlinear regime. In the latter case, long-wave models are compared with integral-boundary-layer ones and bifurcation diagrams for permanent solitary wave solutions of the different models are constructed. Time-dependent computations with the integral-boundary layer models show that the system approaches a train of coherent structures that resemble the solitary pulses obtained in the bifurcation diagrams.
UR - https://www.mmnp-journal.org/articles/mmnp/abs/2012/04/mmnp201274p99/mmnp201274p99.html
UR - https://pure.southwales.ac.uk/en/publications/dynamics-of-a-reactive-thin-film(10bf15a6-ef7e-463a-89b9-b0bda604a718).html
U2 - 10.1051/mmnp/20127408
DO - 10.1051/mmnp/20127408
M3 - Article
VL - 7
SP - 99
EP - 145
JO - Mathematical Modelling of Natural Phenomena
JF - Mathematical Modelling of Natural Phenomena
IS - 4
ER -