| External Collaborators / Partners | Co-operative Research Centre for Optimising Resource Extraction (CRC ORE), University of Queensland |
|---|---|
| UTAS Collaborators | School of Earth Sciences |
| Funding Source | CRC ORE |
| Project Status | Current |
Prediction is one of the basic desires of humanity, to discern the future and know what fate holds. Yet, predicting environmental risks is typically not an attribute which is embedded into the development of our natural resources. This project pursues the development of accurate tests that will yield predictive information on the characteristics of mineral resources, which in turn may impact on the environmental performance of mining operations. The underlying aim is to gain information that supports more effective mineral processing, better storage of waste and ultimately improved mine closure outcomes. The project will deliver tools, methodologies and knowledge which can be used to characterise environmental attributes mainly based on drill core sampling and testing. This information will be used as inputs into mine planning, mineral processing designs and waste management strategies.
The need for improved understanding of environmental liabilities and risks associated with mining operations has been widely recognised in the mining industry. For example, a number of mining companies have identified that a well organised and implemented approach to the prediction and prevention of acid mine drainage can have significant financial benefits, with some suggesting that as little as a 10% reduction in liability may be worth tens of millions to individual companies.
This project will provide fundamental information for future management tools needed by industry to predict waste and ore characteristics such as acid mine drainage. Provision of early indicators will allow a more proactive view on potential environmental issues linked to assessment of management and mitigation as part of overall mine planning and optimisation.
Initial research is focussed on development of small-scale, rapid laboratory tests for significant mineral reactions (such as acid rock drainage), propensity for dust generation and trace element mobility. As the tests move into the validation phase it is anticipated that sponsor case study sites will be used to demonstrate commercially significant results. Additional outcomes will include the development of an accredited training and education program, research publication in high profile journals, and training of research students.
Publications 2012
Noble TN & Lottermoser, 2012: Acidity testing in ARD prediction is only applicable to weathered sulphidic rock. 34th International Geological Congress, Brisbane
Parbhakar-Fox A, 2012: Mineralogical and textural controls on acid rock drainage formation: A case study from northern Queensland. 34th International Geological Congress, Brisbane
Noble TN, Lottermoser BG & Parbhakar-Fox A, 2012: Evaluating pH tests used in acid mine drainage prediction. 9th ISEG - International Symposium on Environmental Geochemistry, Portugal
Noble TN, Lottermoser BG & Parbhakar-Fox A, 2012: Evaluating pH tests for mine water prediction. Water in Mining 2012: 3rd International Congress on Water Management in the Mining Industry, Santiago, Chile
Lottermoser BG, 2012: Environmental indicators in mining: Advances in knowledge and challenges ahead. Keynote address, 7th International Conference on Mine Closure, Brisbane
Parbhakar-Fox A, Edrake M & Bradshaw D, 2012: Reinventing the wheel: the geochemistry-mineralogy-texture approach to solid mine waste classification at abandoned mine sites. 7th International Conference on Mine Closure, Brisbane
Members (External)
Professor Bernd Lottermoser (Project Leader): Bernd.Lottermoser@utas.edu.au
A/Professor Ron Berry (Researcher): Ron.Berry@utas.edu.au
Dr Taryn Noble (Research Fellow): Taryn.Noble@utas.edu.au
Ms Anita Parbhakar-Fox (PhD student): Anita.Parbhakar@utas.edu.au
Mr Ashish Sadhu (PhD student): Ashish.Sadhu@utas.edu.au