Study of leachate recharge model and vertical well design method for bioreactor landfills

Leachate recharging not only solves the leachate treatment problem but also has tremendous environmental and engineering benefits. In this study, a recharge model was developed based on consideration of the inhomogeneous characteristics of the pile and the degree of clogging of the leachate collection and removal system (LCRs), and a design diagram of the maximum injection pressure P s and the minimum setback distance d s was given. The following conclusions are obtained: the rate of diffusion in the horizontal and burial depth directions depends on anisotropy coefficient A , and the rate of development of the blocked water level on the LCRs depends on the degree of blockage h 1 . The development rate of the region affected by the recharging is low at the beginning of the recharging and increases rapidly when the moment T b is reached, which decreases with the injection pressure P , and the degree of blockage h 1 . The safety factor of slope F s decreases at a slower rate when the anisotropy coefficient is 0