Cape Times

Ivanhoe shows tech to make mining easier through the energy transition

- EDWARD WEST edward.west@inl.co.za

THE USE OF new mining technology will go a long way to help to meet the massive increase in mineral resources that will be required to meet the global energy transition, and those metals will mostly come from Africa.

This was according to Ivanhoe Mines’ founder and executive chairperso­n, Robert Friedland, who said at the Mining Indaba in Cape Town yesterday that while Africa had contribute­d less than 1% to global warming, a young generation of Africans is going to have a crucial role to play in saving humanity from the effects of climate change.

Climate change had already resulted in rising global temperatur­es and extreme weather events that had, for instance, seen people fainting in car parks in Arizona in the US and then getting second-degree burns from touching the tar of the car park.

Last year was the hottest, globally, in recorded history, and the problem wasn’t going to get better any time soon, he said.

He said Africa suffered disproport­ionately from climate change, and would require $300 billion to $400bn in the short term to deal with its effects.

He said the world’s most valuable commodity, however, was not a mineral, but water, and already one quarter of the world’s population live in water-stressed situations.

He said their I-Pulse technology, originally developed for mining and which uses electromag­netic pulses to map out undergroun­d geography, could now find undergroun­d water aquifers with 100% success rate to a depth of 1 500m.

The technology has already been used to develop 1 620 acres (about 655 hectares) of pistachio and almond plantation­s in the California desert, over land where there previously was no fresh water.

He said this technology would be of great use in Africa, where large parts of the continent were water stressed, and in the future, it would be “crucial that we combine agricultur­e with mining”.

He said each 1 degree Celsius increase in global temperatur­es due to climate change results in a 3% decline in agricultur­e output globally.

He outlined some of the daunting mineral requiremen­ts of the global energy transition. An electric vehicle had six times the mineral requiremen­ts of a convention­al car, while a wind power turbine uses nine times the minerals of a gas turbine.

An estimated $21 trillion (almost R400trln) would need to be invested into the global electricit­y grid to be able to convert to electric vehicles, while 80 million kilometres of grid would need to be replaced. Some 700 million metric tons of copper would need to be produced in the next 22 years.

Friedland said a much higher copper price was required to make it viable to develop “giant copper mines”, and he suggested also that there should be a different price for copper used for dirty industries, and for copper used for climate change related technologi­es, rather than the current single price.

He said Africa held 30% of the world’s mineral resources, and there were limitation­s on other resources such as, for example, it was not possible to mine in Russia and Ukraine at present.

“Don’t think for one moment that more than 1% of South Africa’s mineral endowment has been mined,” he said. He said it was also essential that the mining for renewable energy minerals did not result in a new form of colonialis­m.

A problem was that mining was itself a big generator of dirty greenhouse gas emissions and was responsibl­e for 4.7% these emissions globally.

He said their I-Rox technology, now also with BHP as a shareholde­r in the

technology, uses electromag­netic pulse technology to create a better way to liberate metals from rock.

The process targets tensile weakness in rocks and substantia­lly reduces the time, energy usage and greenhouse gas emissions currently generated by critical mining activities.

The crushing and grinding of ore is the most energy- and capital-intensive aspect of the mining process.

He said I-Rox effectivel­y pulled the rock apart, separating the mineral with a 5% greater metal recovery than traditiona­l methods, and by using 80% less energy to do the work.

It also involved machinery undergroun­d, and completely eliminated the traditiona­l ore milling complex above ground.

 ?? ?? IVANHOE Mines’ founder and executive chairperso­n, Robert Friedland. | FILE
IVANHOE Mines’ founder and executive chairperso­n, Robert Friedland. | FILE

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