Tailings dam risk reduction using accurate pore pressure monitoring (2020)

Dr Kym L Morton
KLM Consulting services Pty Ltd

Abstract 
The January 2019 Brumadinho tailings dam failure in Brazil which killed over 250 people has  created worldwide focus on what can be done to reduce tailings dam failures. South Africa has had  its own tailings dam failures; notably the Merriespruit failure in Virginia in 1994, where 17 people  were killed and many houses destroyed.
Modern techniques for tailings dam monitoring emphasise the measurement of movement of the  slopes using radar, LIDAR and prisms; however these techniques only measure the reaction of  slopes to instability factors and do not address the causes or assist with reducing risk.
The biggest preventable cause of slope failure is too much water, either in the pond or from the  weight (measured as pressure) of water in the tailings slope faces. Pore pressure monitoring is  an accurate method to measure the weight of water in a slope and enables early intervention to  delay or prevent failure. Pore pressure monitoring methodology and techniques are described  with recommendations on a standardised but bespoke monitoring network for each high risk  tailings dam.  
The mechanisms of failure are discussed and the best practice for monitoring required to predict  failure is presented. Open pit slope stability techniques can be used to manage dam wall stability.  The success of accurate monitoring design depends on the location, construction and  management strategy for a tailings storage facility (TSF). Different monitoring networks are  required depending on the type of dam and the impact of the catchment on its water balance. 
Pore pressure monitoring is proposed as an effective method to predict instability as it addresses  the cause of the potential failure. Big Data techniques are now available to manage multi-point  monitoring sites and telemetry can transmit real-time information which can then be depicted in  a dashboard to present knowledge and identify risk. This can be used to prevent failures and act  as early warning systems for those that cannot be prevented. An example of a monitoring  network, installation and reporting is given including recommendations for implementation and  transmission of real-time information linked to action. 
Keywords: IMWA2019, full paper, writing, tables, Figures, reference

Morton, K.L. (2020) ‘Risk reduction in tailings dams by using point piezometers for monitoring’, SAIMM Conference on Tailings Management, Johannesburg, February 2020.