Abstract EN:

Suffusion selective erodes the fine particles from the soil matrix. In the process of suffusion, eroded particles are moved by the seepage and filtered by the coarse fraction. This coupled phenomenon will result in the changes in seepage velocity, hydraulic gradient and permeability coefficient and so on. A large device is selected to study the filtration process in internal erosion and the mechanism of suffusion. Thanks to the pressure measuring ports along the rigid wall of the large device, local process of suffusion can be studied. The results from another small device are used to compare with the results of the large device to research the scale effect of the specimen. The basic filtration equation indicates the final state of the filtration process. In the suffusion process, the filtration process ends when the fine content is closed to the value computed by the basic filtration equation. A small number of fine particles can still affect the hydraulic response. Suffusion is a heterogeneous process and the position of the maximum value of the local hydraulic gradient is transferred from upstream to downstream. The grain size of eroded particles becomes huger with the development of the suffusion. And the erosion process can be divided into three stages: « grain adjustment » stage, « seepage stability » stage, and « seepage change » stage. The specimen size has some influence on the erosion process. The criteria based on particle size will lead to a high risk, but energy method is compatible. Combining three erosion laws, three erosion models were formulated based on the mass balance of four assumed constituents: stable fabric of the solid skeleton, erodible fines, fluidized particles, and pure fluid. The finite difference method is used to solve the governing differential equations.