Andrew Forrest’s Fortescue Metals grabbed some headlines this week with news that it would invest $4 billion for hundreds of giant electric haul trucks, electric dozers and electric excavators. But what really caught many people’s attention was its revelation that it has developed an EV fast charger with a rated capacity of 6 megawatts (MW).
The 6 MW chargers will be used to charge the huge 1.9 megawatt hour batteries that drive the power systems for the massive 240 tonne battery electric haul trucks. It says it will be able to do that in just half an hour.
“Fortescue has developed the stationary fast charging solution to support the autonomous battery-electric truck,” the company said this week. “Equipped with robotic connection options, the charger can provide up to 6 MW of power and charge the current battery-electric T 264 in 30 minutes.”
And there were not many more details than that, and Fortescue declined to comment further. Â The company’s newly released Climate Transition Report reveals only that it expects the new 6 MW chargers to be rolled out in 2026.
For comparison, the biggest chargers rolled out to date have been ABB’s megawatt charger, which it says  has the potential to ramp up to charging capacities of up to 3.75 megawatts at 3,000 amps.
And if Fortescue is right about the scale and speed of its haul truck charging, it begs the question of what possible role hydrogen trucks could have in such surroundings. It continues to test them, but BHP has already written off the idea.
Fortescue will bring in 360 of the T 264 battery electric haul trucks as part of that $4 billion deal with Leibherr, which is the biggest single contract that either company has signed.
It will also bring in 60 electric bulldozers that it is currently developing with Liebherr, again with propulsion and battery systems designed by Fortescue, as well as adding another 52 electric excavators to the three that are already achieving success at the company’s mines.
The package is part of Fortescue’s ambitious goal of reaching “real zero” in its terrestrial operations at its huge iron ore mines in the Pilbara. It currently burns more than a billion litres of diesel a year for its transport needs, and will also replace its gas and diesel generators with wind, solar and battery storage.
Fortescue’s leadership is also dragging the other big miners into the battery electric age. BHP and Rio Tinto are working together on their own electrification plans and have started trials of both battery electric and hydrogen trucks, as well as planning solar, wind and battery projects at those mines.
BHP, coincidentally, also announced it will be trialling energy systems made by Caterpillar that allow charging of giant haul trucks – in this case 372 Â tonnes – even as they move. See:Â BHP to trial energy system that can charge giant battery haul trucks as they work
Giles Parkinson is founder and editor of The Driven, and also edits and founded the Renew Economy and One Step Off The Grid web sites. He has been a journalist for nearly 40 years, is a former business and deputy editor of the Australian Financial Review, and owns a Tesla Model 3.
Twiggy, the only rich basterd that I don’t mind.
You clearly do not know him well enough. Or at all.
No doubt he will be chuffed at getting your stamp of approval.
When he declares himself King of Western New Holland perhaps you will receive a knighthood Mr Fan.
a bit of an overreaction there Jonti
I’m only the warm up guy for the proper comedians.
You apparently didn’t achieve much in life.
Why, because it was not a bigoted hate-filled comment ???
Is that your problem??
A leader on many fronts. And not deserving of many critics of the past.
There are only three ways a person becomes obscenely rich. None of them are honourable.
It will be interesting to see what Rio and BHP do when considering their pilot evaluations.
Fast charging is going to wreck those batteries – especially in the Pilbara heat.
Since you have so many of the same fleet why not go for a battery swap solution.
the nights are ok, it’s the hot days that cause the problems,
probably cool them somehow
Yes, when the ambient temperature is above 40° overheating becomes a problem. I drove a dump truck in Victoria and on very hot days some machines would have to stop work because no cool air goung through the numerous radiators.
Surely they would have thought of that.
Cheaper to run heat pumps to cool them and the charging cables
There are Tesla’s out there with 300k+ miles that have been fast charged the whole time.
Said it and let’s see if he follows through as he normally does not
Great!
And they can sell all of their redundant equipment to countries for whom net zero is a fallacy.
Everybody wins!
This ties in very nicely with an article I read today where the lithium battery manufacturers have discovered that by charging their batteries fully before their first use, it prolongs their life and their recharge by up to 70%.
What does that mean?
That they sell the batteries with little or no charge? and if so, how is that a good idea?
formula one team williams enginering have been helping design these