Tailings Monitoring – Delivered by Future Tails
This micro-credential has been designed for professionals working in the field of tailings management. It is best suited to practicing engineers, geoscientists or individuals with responsibility for input into risk assessments of tailings storage facilities, although the content covered and the principles discussed will find relevance in all fields of mining geomechanics.
This micro-credential is one of a series of 12 micro-credentials which, if successfully completed, will lead to a Graduate Certificate in Tailings Management* at UWA.
Future Tails is a five-year initiative funded by sponsors Rio Tinto and BHP to facilitate industry understanding of best practice mine tailings management.
Upon successful completion of this micro-credential, you'll receive:
- Two PD Points - stackable for academic credit towards the Graduate Certificate in Tailings Management*
- A Certificate of Achievement
- A UWA Plus Professional Development Transcript, listing all successfully completed micro-credentials
* In order to apply for the Graduate Certificate award you must have a Bachelor of Engineering degree or a degree in a related field. Please refer to the Graduate Certificate in Tailings Management.
- Delivery mode
- Online access to learning material, on demand. Two online discussion forums will be held for students to discuss the learning material and share their own insights into the topics covered.
- Course date
- 2 October 2023
- Applications close
- 29 September 2023
- 50 hours (including online learning, personal study time and assessments)
- Academic lead
- Professor Andy Fourie
- $1,100 inc. GST
- Critical information summary
- MINEM532 Tailings Monitoring [PDF 243KB]
Articulate the link between a Failure Modes and Effects analysis and credible failure modes
Identify the primary causes of key failure modes and how to identify incipient develop of failures
Compare and contrast available monitoring technologies
Evaluate the validity of the Observational Approach to credible failure modes