18.9 C
Belgrade
Supported byspot_img
spot_img

LKAB can increase Europe’s self-sufficiency of critical minerals

Member of Europium Groupspot_img
Supported byspot_img

LKAB’s extensive exploration work in recent years has yielded results, resulting in increased mineral resources for iron ore, phosphorus and rare earth elements. This means LKAB can help both Sweden and Europe to become more self-sufficient.

Without mineral fertilisers, global food production would decrease by half. In Sweden alone, the argicultural sector uses arund 850,000 tonnes of fertiliser per year.

We have found more mineral resources at all our mine sites – Kiruna, Svappavaara and Malmberget in Gällivare. And there is more ore at greater depths. Not only that, but the Per Geijer deposit north of Kiruna is significant and contains more than just iron ore. In 2023 we reported volumes and concentrations of rare earth elements for the first time. As you might know, these elements are needed for our mobile phones, electric cars and wind turbines. For the green transformation of the industry and society. And, as a bonus, they are present together with the iron ore.

Supported by

We are developing the technology to extract these elements. The concentrations are not extremely high, but the volumes are large and since we are already mining the ore to access the iron, we can take the opportunity to establish additional steps during processing. The rare earth elements are found in a mineral called apatite – which also contains another substance, phosphorus, in even higher concentrations. Historically, the high phosphorus content was a disadvantage as it made the iron brittle in older production processes. Once the Thomas process was invented in the 1870s, however, iron ore that was rich of phosphorus also became valuable – which was one of the reasons why the deposits in the Swedish ore fields became profitable to extract.

We can now separate the apatite, and for many years we have deposited it in tailings ponds along with the waste rock that we separate from the iron ore in the processing plants above ground. Until now, extracting phosphorus has not been sufficiently profitable – but now the technology has been developed and demand has increased. Why is that? Well, partly because phosphorus is an essential nutrient in mineral fertilisers, which are in turn crucial for the global food supply. Without mineral fertilisers, global food production would decrease by half. In Sweden alone, the agricultural sector uses around 850,000 tonnes of fertiliser per year. However, we have no domestic fertiliser plants. Europe is 90 per cent dependent on imports of phosphorus and, before its war in Ukraine, Russia accounted for a significant portion of the production.

Nitrogen, potassium and phosphorus are the most important nutrients in modern mineral fertilisers. LKAB’s extraction of phosphorus would reduce our dependence on Russia for our food supply. And not just in Sweden: we could produce five times the Swedish demand for phosphorus used in mineral fertilisers from our ongoing production alone, without extracting from previously deposited material. We would therefore also be able to export significant amounts – to other European countries, for example.

The deposit in Kiruna, named after the geologist Per Geijer, contains up to seven times more phosphorus than the orebodies we are currently mining. Once we start mining it, we could replace all the former Russian exports of phosphorus to the EU.

There is also a health aspect to reducing import dependence. The European Commission wants to reduce the amount of cadmium in food. A major source of cadmium in food is the phosphorus used in fertilisers. LKAB’s deposits contain cadmium-free phosphorus. And what about rare earth elements and our dependence on imports there? Here we are at the mercy of China, which dominates the entire value chain. There is currently no production within the EU. The undersupply is significant, and new mines and processing capacity are needed in Europe to meet the needs of the green technology shift.

We are now working hard to put these plans into action. We will extract apatite concentrate at our mines, which will then be transported to an industrial park in Luleå where the phosphorus and rare earth elements will be processed further. We can continue mining iron ore for many years to come. We have resources and reserves amounting to over four billion tonnes of iron ore, if we make a comparison, since we were founded in 1980, we have extracted two billion tonnes.

A significant portion of our profits goes to the Swedish state, to build a stronger society. And now, our deposits has the potential to contribute to increased self-sufficiency in critical raw materials.

 

Source: LKAB

Supported byElevatePR Digital

Related News

Progress at Plymouth’s tungsten mine: Final permit secured for production restart

Plymouth’s potential tungsten mine is on track to achieve significant production levels following the approval to commence operations. Tungsten West Plc has secured a...

Elementos pursues acquisition of stake in Iberian smelting for European tin market expansion

Elementos, a tin exploration and development firm, has initiated a non-binding term sheet to potentially acquire up to a 50% interest in Iberian Smelting...

Vianode CEO criticizes EU’s Raw Materials Act for inadequate industry support

The EU’s landmark Critical Raw Materials Act (CRMA), which officially came into effect on May 23, is being criticized for its lack of substantial...

Securing the future: EU’s strategic partnerships for critical raw materials and sustainable development

In the global pursuit of critical raw materials (CRMs), institutions like the EU, World Bank, and US Geological Survey define these resources based on...
Supported by
Supported by
Supported by
error: Content is protected !!