Oxford study: Move copper mining to dormant volcanoes

Instead of digging for metals, we could extract them from salty, subterranean water.

Oxford scientists have proposed what they believe is a more sustainable approach to copper mining: digging deep wells under dormant volcanoes to suck out the metal-containing fluids trapped beneath them.

The status quo: Currently, most copper mining is done via open pits. Drills and explosives blast away rock near the surface, which is then transported to a processing facility. There, the rock is crushed so that the tiny portion of copper in it can be extracted.

This extraction process often involves toxic chemicals, and once the copper is removed, the waste rock that remains must be shipped to a disposal site so that it doesn’t contaminate the environment.

The challenge: All of the digging, extracting, and transporting involved in copper mining can be energy intensive and environmentally damaging — but the world needs more copper today than ever before.

Electric vehicles contain four times the copper of their fossil fuel-powered counterparts, and the metal is a key component of solar, wind, and hydro generators. That makes copper a key player in the transition to a more sustainable energy system.

The idea: Rather than focusing our copper mining efforts on rock, the Oxford team suggests we look to water — specifically, the hot, salty water trapped beneath dormant volcanoes. 

“Volcanoes are an obvious and ubiquitous target.”

Jon Blundy

These brines contain not only copper, but also gold, silver, lithium, and other metals used in electronics — and we might be able to extract them without wreaking havoc on the environment.

“Getting to net zero will place unprecedented demand on natural metal resources, demand that recycling alone cannot meet,” lead author Jon Blundy said in a press release

“We need to be thinking of low-energy, sustainable ways to extract metals from the ground,” he continued. “Volcanoes are an obvious and ubiquitous target.’”

Brine mines: After years of research, the Oxford team has published a study on the mining of metals from dormant volcanoes, and according to that paper, the process has tremendous potential — but it wouldn’t be easy. 

The wells would need to be more than a mile deep, and there’s a small chance the extraction could trigger a volcanic event — something that would need to be assessed in advance of any drilling.

The equipment used for the extraction process would also need to be able to withstand corrosion from the brine and temperatures in excess of 800 degrees Fahrenheit.

Worth exploring: If these technical and safety challenges can be overcome, they predict that copper mining at dormant volcanoes would be more cost effective than at open pits. 

copper mining
An open-pit copper mine in New Mexico. Credit: Eric Guinther / Wikimedia Commons

It would also be less environmentally damaging, as geothermal energy from the volcanoes themselves could be harnessed to power the process.

And because dormant volcanoes are widespread, copper mining wouldn’t be limited to just a handful of countries, as is the case currently.

The next steps: The team is now looking for a site to dig an exploratory well, which should help them better understand both potential of tapping into this new source of metal and the challenges involved in the process.

“Green mining is a scientific and engineering challenge which we hope that scientists and governments alike will embrace in the drive to net zero,” Blundy said.

We’d love to hear from you! If you have a comment about this article or if you have a tip for a future Freethink story, please email us at [email protected].

3D-printed “metamaterial” is stronger than anything in nature
Australian scientists used an advanced 3D printing technique to create a super strong, super lightweight new “metamaterial.”
Artificial reef designed by MIT engineers could protect marine life, reduce storm damage
An MIT team is hoping to fortify coastlines with “architected” reefs engineered to mimic the wave-buffering effects of natural reefs.
Your garden’s 2024 “hardiness zone” could change, thanks to warming climates
Hotter summers and warmer winters are changing the types of plants we’ll be able to successfully grow. Here’s how to adapt.
Scientists are deep-freezing corals to repopulate the ocean
Healthy corals could disappear by the 2030s if climate change is not curbed, so scientists are deep freezing specimens.
Korea’s “artificial sun” sets nuclear fusion record
An upgrade to KSTAR, an “artificial sun” in Korea, enabled scientists to set a new world record in nuclear fusion.
Up Next
sustainable cotton
Subscribe to Freethink for more great stories