Rapid Water Table Response to Transient Pressure Wave Generation in the Unsaturated Zone of Tailings Dams

Charné Theron (First author), Simon Lorentz

Research output: Contribution to conferencePaperProfessional

Abstract

Recent years have seen a global rise in the failure of tailings dams. Studies investigating the causes of slope failure often recognise high intensity rainfall events to significantly contribute to liquefaction, erosion and overtopping. This study aims to investigate the influence of alternative physical and geohydrological processes that, under tension saturation conditions, contribute to slope instability in tailings dams. It has been suggested that the generation of transient pressure wave mechanisms by high intensity rainfall events, surface ponding and wetting front advancement result in the formation of an induced pressure head that triggers the mobilization of pre-event water. In order to quantify these physical processes, this study included the analysis of rapid transmission conditions in a silica fines mix, with similar physical and hydraulic characteristics as platinum tailings. A tall leak-proof soil column, containing the soil sample compacted to in-situ dry bulk density, was fitted with seven observation ports. Each port consisted of a pore air pressure probe, a mini tensiometer and a time domain reflectometry probe. After set-up and initial stabilisation, three separate artificial high intensity rainfall events were applied to the surface. Monitoring of hydraulic state variables was recorded at thirty second intervals by automatic logging, thereby enabling the analysis of measured outcomes. Observations showed instant spikes in pore air pressure ahead of the wetting front, as well as a number of delayed responses. The interpretation of lab results led to the conclusion that pressure diffusion mechanisms throughout the porous medium, could result in the rapid release and mobilisation of previously stagnant antecedent moisture, thereby enabling phreatic levels to rising rapidly and in excess to the amount of surface infiltration. Also, since an increase in pore water pressure is likely to cause a reduction in shear strength, it is suggested that these physical and geohydrological processes could have an adverse impact on the stability of tailings dams.
Original languageEnglish
Pages1825-1836
Number of pages12
Publication statusAccepted/In press - 2024
EventTailings and Mine Waste 2024 - Colorado State University, Colorado, United States
Duration: 10 Nov 202413 Nov 2024
https://www.thetailingsnetwork.com/tailings-conferences/tailingsminewaste2024

Conference

ConferenceTailings and Mine Waste 2024
Abbreviated titleTMW
Country/TerritoryUnited States
CityColorado
Period10/11/2413/11/24
Internet address

Keywords

  • tailings dams
  • unsaturated zone
  • water table response

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