Tag Archives: Mike Fraser

Gold Fields to up the renewable ante at St Ives with A$296 million investment

Environmental, Mine operation news, Mining services, Power supply for mines, , , , , , , , , , , ,

The Board of Gold Fields Limited has approved the go-ahead for a A$296 million ($195 million) renewables project at the St Ives mine, in Western Australia, in a move that could boost the operation’s renewable input to over 70%.

The project will comprise:

  • 42 MW of wind power delivered via seven wind turbines;
  • 35 MW of solar power delivered via 60,000 solar panels;
  • A 33 kV renewable energy hub substation; and
  • A 132 kV transmission line.

The project, the largest in the Gold Fields portfolio to date, will provide 73% of the mines electricity requirements and is planned to commence construction in May 2024 and will be operational by the end of 2025.

While previous renewables projects of this nature were built and managed by independent power producers, the St Ives project will be built by Gold Fields, the company stated.

Six out of Gold Fields’ 10 mines and projects are already powered partially by renewable electricity, and, in addition to the St Ives project, the company is studying additional renewable energy projects to meet the company’s decarbonisation commitments.

In 2023, renewable electricity accounted for 17% of electricity consumption across the Gold Fields business, compared with 13% a year earlier, leading to a 5% decline in carbon emissions during the year, the company said. Renewables provided 50% of electricity consumed at the Agnew mine in Australia and 15% of South Deep’s electricity consumption. The Cerro Corona mine in Peru is fully supplied by hydroelectricity, which is classified as 100% renewable. The Windfall project in Canada (which is a 50:50 joint venture between Gold Fields and Osisko Mining) is also supplied by hydroelectricity.

Once operational, the St Ives project will boost renewable energy in Gold Fields’ electricity mix further to approximately 24% and will contribute markedly to achieving the group’s 2030 target of reducing Scope 1 and 2 emissions by a net 30% against its 2016 baseline. St Ives itself will reduce its Scope 1 and 2 emissions by approximately 50% by 2030. Gold Fields has also committed to Net Zero by 2050.

“The St Ives renewables project is a clear and tangible signal to our stakeholders of our decarbonisation commitments,” Gold Fields CEO, Mike Fraser, said. “Investing in renewables has obvious environmental benefits, but it also provides the business with cheaper electricity and offers an enhanced level of energy supply security.”

The St Ives renewables project will reduce electricity costs to a third of the previously projected costs by 2025.

The project has received the required approvals from Traditional Owners of the land, the Environmental Protection Agency and the Western Australian Department of Energy, Mines, Industry Regulation and Safety.

Gold Fields has also advanced plans on other key renewables projects in its portfolio, which include:

  • A 11 MW expansion to the current 8 MW solar plant at its Granny Smith mine in Australia;
  • A 7.7 MW photovoltaic solar plant at the Salares Norte mine in Chile to be added to the current diesel generator sets about a year after first gold production. The project has already received the required environmental approvals; and
  • Adding up to six wind turbines to provide approximately 40 MW of power to the South Deep mine in South Africa. This project is currently in feasibility phase and awaiting final environmental approval.

Fraser added: “All our operations continue to investigate the possibility of adding further renewable electricity sources where it makes technical and economic sense to do so. We are also exploring the most capital efficient ways to fund these projects as part of our disciplined capital allocation. Gold Fields is committed to playing its part in mitigating the impact climate change is having on the world.”

Chaarat Gold eyes simpler, lower cost processing of Kyzyltash ore with Albion process

Metallurgy, Mineral exploration, Mineral processing, Precious metals, , , , , , , ,

Chaarat Gold has announced the completion of the first phase metallurgical test program performed by SGS Lakefield on its Kyzyltash gold project, in Kyrgyzstan, which showed similar first stage recoveries from both pressure oxidation (POX) and Albion™ technologies.

The project has a current JORC-compliant measured, indicated and inferred sulphide resource of 5.4 Moz of gold at 3.8 g/t Au. Management estimate that the project has the potential to produce approximately 300,000 oz/y of gold subject to the project meeting its feasibility, permitting and development milestones. More than 80,000 metres of drilling have been completed to date on the project.

The Albion process employs ultra-fine grinding followed by aerated cyanide leaching to extract gold while POX uses high-pressure and temperature conditions to oxidise refractory sulphides prior to gold extraction by conventional carbon-in-leach technology. Bio-oxidation (BIOX) test work is ongoing with results expected in the September quarter of 2022. The test work will be analysed in an economic trade-off study comparing the potential processing technologies applicable to the ore with the aim of making a final decision in 2023. Following this, Chaarat will aim to progress towards an updated feasibility study on the Kyzyltash project.

SGS Lakefield performed flotation and oxidative treatment tests on the representative samples of the 2021 Kyzyltash drilling program, with ore shown to be amenable to froth flotation recovering 87-90% of gold with a 23-24% mass pull. The leach recovery for both Albion and POX averaged 80-90% with similar results between the two processes, the company said.

Mike Fraser, Chief Executive Officer of Chaarat, said: “The development of the Kyzyltash project is continuing as planned. These first results of the Kyzyltash metallurgical test work have provided confirmation that the gold is favourably recoverable with various technologies. The fact that the results from the Albion process were similar to POX is very encouraging as Albion could potentially offer a substantially simpler, lower cost means of processing Kyzyltash ore. Further test work to confirm the preferred processing route will enable Chaarat to proceed with an updated feasibility study with the aim of unlocking the significant future value that this project can bring to Chaarat shareholders.”

The Albion process, owned by Glencore Technology, uses a combination of ultrafine grinding and oxidative leaching at atmospheric pressure to work. It also tolerates a more variable feed and lower grade than other processes, according to Glencore Technology, meaning it can make some projects feasible and profitable where alternative technologies could not. The sulphides in the feed are oxidised and valuable metals liberated, with the economic metals recovered by conventional downstream processing. Test work requires only small sample masses with no pilot plant, Glencore Technology says.