The important role of geometallurgy in today’s mining industry

By Dr Louisa O’Connor MAusIMM, Senior Lecturer, Western Australian School of Mines

Why is the discipline of geometallurgy so important?

Geometallurgy is an important addition to any mining operation. It has been shown to increase site stakeholder collaboration, creating an environment for knowledge sharing and improved data acquisition and interrogation, with the end result being the integration of such data into mine planning and scheduling. All of these aspects create better business optimisation, better utilisation of staff and better targeted key performance indicators.

What role does geometallurgy play in a modern mining operation?

‘Classical geometallurgy’ is the collaboration between geology and metallurgy, with one discipline supplying the other with information and vice versa for a better understanding of the deposit and ore character. Geometallurgy now includes all site stakeholders throughout the entire mining value chain. Understanding the data from grassroots onwards can be integrated into construction (infrastructure), business, financial and human resource forecasting, allowing the optimisation of every stage along the value chain.

How does a geometallurgy program benefit an organisation?

If there is an opportunity to employ a geometallurgist or generate geometallurgical data, you are on the right track to understanding your ore character, the processing efficiency of those ores and the knock-on effects downstream. While geometallurgy does include statistics and modelling, it also helps to highlight patterns within data for useful information. A systematic and stepwise approach to running a geometallurgical program is essential. In many cases, companies have vast amounts of data that few have seen or no one has utilised, normally because they are not sure how or what to do. Most often, geometallurgy programs require funding to generate the kind of reliable, statistically representative and quality data for high-confidence processes and business improvement projects. GeoMet 2016 will provide insight into how to undertake this and deal with the challenges.

What are some of the future opportunities presented by geometallurgy?

As highlighted in the AusIMM’s 2015 conference Tailings and Mine Waste Management for the 21st Century, an emerging area for geometallurgy on a serious level is the modelling of some of our most obvious and dormant resources – tailings dams. The success of using geometallurgy to model tailings facilities has been well noted. There is huge potential to apply geometallurgical theory and methodologies to better understand the location and character of a wealth of saleable metals and minerals. Characterising tailings dams will also introduce other operational stakeholders into the project, such as geophysicists and geochemists. As tailings are a near-future resource for many mining operations, the area should be investigated, funded and researched now. Mineral processing technologies and deficiencies have changed so much since many of the tailings dams were constructed that there is significant potential for mineable reserves.

Tailings are not the only interesting and obvious fit for geometallurgical practice. There is also a continuing interest in the use of geometallurgy to better understand materials and waste products so as to manage potential hazards with acid rock drainage. The University of Tasmania will present the latest research on this subject and run a very worthwhile workshop at GeoMet 2016. Opportunities to deliver positive results to operations will also be presented at the conference.

What benefits does geometallurgy offer in the current difficult operating environment?

Geometallurgy doesn’t have to cost an operation anything. In the current mining economy, there is little to no surplus to fund ‘optional’ projects, but geometallurgy should not be an optional practice. Most sites have a myriad of information and data, which, given some experience and training, can be utilised and interpreted, making geometallurgy a standard day-to-day way of thinking and working. Adopting geometallurgical methods and practice has a number of benefits. Geometallurgy influences the optimisation of plant processes by providing a better understanding of ores, thus increasing recovery potential and enabling better scheduling, streamlining people and their roles, enabling targeted financial spending and allowing operations to be selective and strategic with new projects. Several presentations at GeoMet 2016 will highlight the results of well implemented programs, indicating where significant improvements have been achieved, whether that be in the classical geometallurgy area or within the business value chain.

What can we learn from geometallurgy case studies?

Whether you are starting a geometallurgical program or have been carrying out a program for some time, case studies are always an excellent way to educate, reassure or challenge yourself. Most case studies will highlight the significance of a geometallurgy practice and how it helped improve a business’s bottom line. The conference environment provides an excellent opportunity for people to discuss scenarios from the presentations during the breaks and social functions.

WASM Rank a draw card for post graduates

Josh Chiat Kalgoorlie Miner

21 February 2017
The WA School of Mines is facing one of the toughest years to date, as it gears up for the official start of orientation week today. A small group of postgraduate students living at the university’s new $32 million Agricola housing
facility toured the university yesterday alongside WASM director Sam Spearing and Curtin University pro vice-chancellor Moses Tade.
WASM’s partner universities on the east coast have struggled through record low enrolments in mining engineering this year. However, with strong postgraduate interest and international enrolments, Mr Tade is remaining
upbeat as the impact of public perceptions of the mining downturn hit the university.
“The challenge for us is really to work our way out of it, even though it is the boom and bust cycle,” he said, adding that a drop-off in enrolments from the split cohort in 2014 and perceptions of the mining industry had hurt undergraduate student numbers. “Those are the real challenges and I’m happy to say that gradually things are improving, higher degree students (numbers) are improving and the faculty is working on different strategies to give
us a sustainable project and we are hoping to come out with a plan in the next three or four months to have something sustainable in the future,” he said.
“It’s not only the school of mines, the same thing is happening all over Australia.” On the upside, last year’s introduction of the QS rankings for mining engineering courses is having a positive effect on the university’s
international marketing. All of the postgraduates that toured the campus yesterday highlighted Curtin University’s number 19 ranking on the guide as a key reason for making the move to Kalgoorlie.
They included Iran’s Saeed Ghannadpour and Mohammadbagher Fathom, Papua New Guinea’s Sailas and Josie Ranja Sailas, South Korean Dr Seongseung Kang and the Philippines’ Daryl Corbin Caw.
Mr Caw, studying a Masters of Philosophy in chemical engineering in the next 18 months, said WASM’s ranking was a drawcard. “The School of Mines is top 19 in the whole world in line with that specific field, that’s why I chose to study here at WASM,” he said. He will use WASM expertise to work on a new way to perfect the processing of lateritic ore, something that has long been hampered by its high cost.
Mr Tade said despite the downturn it was a good time to enter the mining game.
“What we’re trying for people to see is that this is the best time actually to get an education in the mining area because by the time you finish your degree in four years’ time there will be lots more job opportunities,” he said.

WASMA To Produce Mining Podcast

Kyle DeSouza WASMA council member

Australia’s first ever dedicated mining podcasts – the WASM Podcast. We’re bringing you discussions on leadership, management, strategy, finance, mental health, career planning and how to retire with money.We want to hear from the WASM Graduates, your stories and experiences are the foundation of the alumni and community at at large would love to hear your tales.

Let us know the topics and people that interest you and email podcasts@wasma.com.au

WASM offers the best in Mining Education

Jarrod Lucas

ABC GOLDFIELDS

NEW ARRIVALS: The WA School of Mines’ status as an international melting pot for mining education continues to grow, with students from across the globe flocking to regional Australia.

As WASM gears up for orientation week, ABC reporter Jarrod Lucas spoke with a group of post-graduate students about their first impressions of the Kalgoorlie campus.

The newcomers include Associate Professor Seongseung Kang from South Korea, Filipino Daryl Gaw and Dr Saeed Ghannadpour and PHD candidate Mohammadbagher Fathi, both from Iran.

Mr Gaw, who is studying a masters of philosophy focusing on metallurgical engineering, said the school has a strong international reputation.

“Basically the reason why I chose the Western Australian School of Mines is because I think it’s in the top 19 in terms of mining and metallurgical engineering around the world,” he said.

“They have the capability to equip me with the knowledge I need so when I go back to the Philippines I’ll be able to help my country develop their technology as well.”

Mr Fathi said moving from Iran to regional Australia has been a culture shock.

“I don’t have any experience like this … I am learning as I go,” he said.

WASM was initially set up in 1902 in Coolgardie, before the Kalgoorlie campus was established in 1903.

The school was administered by the Department of Mines until 1969 when it became a branch of the Western Australian Institute of Technology, which has since become Curtin University.

Prof Kang said he chose to study at WASM because of the ability to learn on the ground with such a diverse mining industry on the school’s doorstep.

“Australia is such a big country, and so many mineral resources,” he said.

“This time is my second time here. I’ve been very impressed by the mines.

“It’s a very good location to study about mining and things like rock stability.”

Curtin students have won the Asia Pacific heat of the American Association of Petroleum Geologist’s (AAPG) Imperial Barrel Award (IBA) competition.

A team of Curtin honours and masters students has won the Asia Pacific heat of the American Association of Petroleum Geologist’s (AAPG) Imperial Barrel Award (IBA) competition. The IBA is an annual competition for geoscience graduate students from universities around the world, simulating the exploration work undertaken by geologists and geophysicists in the oil industry. The team, comprising Elena Alganaeva, Jiaoying Bi, Kirk Gilleran, Mike Maher and Jerome Paz, will now represent the Asia Pacific region in the international finals of the competition which will be held during the Annual Conference of the AAPG in Houston in April.

This achievement is a great credit to the team, the Department of Applied Geology and Curtin’s reputation for Petroleum Geoscience. This is the second time Curtin has won the Asia-Pacific competition in four years of competing (on the other two occasions, we received honourable mentions). Congratulations and best of luck to the team.