Rockfill dams are nowadays often preferred over concrete dams because of their economic advantages, their flexible and thank to the great advance achieved in geosciences and geomechanics.
Unfortunately their behavior in case of overtopping is still an open issue. In fact very little is known on this phenomenon that in most cases leads to the complete finite failure o the structure with catastrophic
consequences in term of loss of lives and economic damage.
The principal aim of the present work is the development of a computational method
to simulate the overtopping and the beginning of failure of the downstream shoulder of
a rockfill dam. The whole phenomenon is treated in a continuous framework.
The fluid free surface problem outside and inside the rockfill slop e is treated using a
unique Eulerian fixed mesh formulation. A level set technique is employed to track the
evolution of the free surface. The traditional Navier-Stokes equations are modified in
order to automatically detect the presence of the porous media. The non-linear seepage
is evaluated using a quadratic form of the resistance law for which the Ergun's coefficients
have been chosen.
Abstract
Rockfill dams are nowadays often preferred over concrete dams because of their economic advantages, their flexible and thank to the great advance achieved in geosciences and geomechanics.
Unfortunately their behavior in case of overtopping is still an open issue. In fact very [...]
This paper aims to present and validate a numerical technique for the simulation of the overtopping and onset of failure in rockfill dams caused by mass sliding. This goal is achieved by coupling a fluid dynamic model for the simulation of the free surface and through-flow problems together with a numerical technique for the calculation of the rockfill response and deformation. Both the flow within the dam body and in its surroundings are taken into account. An extensive validation of the resulting computational method is performed by solving several failure problems on physical models of rockfill dams for which experimental results have been obtained by the authors.
Abstract
This paper aims to present and validate a numerical technique for the simulation of the overtopping and onset of failure in rockfill dams caused by mass sliding. [...]