The county also happens to be sitting on enough lithium to produce nearly 400 million batteries, sufficient to completely revamp the American auto fleet to electric propulsion. Even better, that lithium could be extracted in a way consistent with broader goals to reduce pollution.
The traditional ways to extract lithium involve either hard rock mining, which generates lots of waste, or large evaporation ponds, which waste a lot of water. In Imperial Valley, companies are pioneering a third method. They are extracting the mineral from the underground briny water brought up during geothermal energy production and then injecting that briny water back into the ground in a closed loop. It promises to yield the cleanest, greenest lithium on the planet.
The hope of a clean energy future has excited investors and public officials so much that the area is being rechristened as “Lithium Valley.”
In a region desperate for jobs and income, the prospect of a “white gold rush” is appealing. Public officials have been working to roll out the red carpet for big investors, including trying to create a clear plan for infrastructure and a quicker permitting process. To get community groups’ support, they are playing up the potential for jobs, including company commitments to hire local workers.
But Imperial Valley residents who have been on the butt end of get-rich schemes around water and real estate in the past are worried that their political leaders may be giving away the store. As we explore in our new book, “Charging Forward: Lithium Valley, Electric Vehicles and a Just Future,” the U.S. has an opportunity to ensure that these residents directly benefit from the lithium extraction boom, which is an important part of the global shift to clean energy.
Possibilities and perils in ‘Lithium Valley’
Imperial Valley is emblematic of the potential and the risks that have long faced impoverished communities in resource-rich regions.
To understand the possibilities and perils in Imperial Valley, it’s useful to remember that the world is not just moving away from fossil fuel extraction but toward more mineral extraction. Today’s battery technology – necessary for electric vehicles and energy storage – relies on minerals including cobalt, magnesium, nickel and graphite. And mineral extraction is often accompanied by obscured environmental risks.
The county also happens to be sitting on enough lithium to produce nearly 400 million batteries, sufficient to completely revamp the American auto fleet to electric propulsion. Even better, that lithium could be extracted in a way consistent with broader goals to reduce pollution.
The traditional ways to extract lithium involve either hard rock mining, which generates lots of waste, or large evaporation ponds, which waste a lot of water. In Imperial Valley, companies are pioneering a third method. They are extracting the mineral from the underground briny water brought up during geothermal energy production and then injecting that briny water back into the ground in a closed loop. It promises to yield the cleanest, greenest lithium on the planet.
The hope of a clean energy future has excited investors and public officials so much that the area is being rechristened as “Lithium Valley.”
Britain on Thursday named Oxford University professor Rachel Kyte as its new climate envoy and announced a new investment facility, the latest steps in the new government's
Switzerland gave five districts the go-ahead on Thursday to shoot wolves after reports of attacks on livestock, a move that will please many farmers but anger
Two rabies epidemics in animals spurred a state health emergency in Texas and a program that oversees annual mass wildlife vaccination. Millions of doses have been distributed since the ‘90s.
Shell, Equinor and TotalEnergies said on Thursday their carbon dioxide (CO2) storage project on Norway's west coast is now completed and ready to receive CO2, with its