Compass Mining Partners With Oklo to Power Bitcoin Mining Operations With Advanced Fission
Bitcoin mining firm Compass Mining announced the company has entered a 20-year partnership with Oklo Inc., a California-based firm that produces clean, emission-free energy via advanced fission. Oklo explains the company is committed to providing 150 megawatts (MW) of clean power to Compass in order to drive bitcoin mining operations.
Advanced Fission and Bitcoin Mining Connect
In recent times, all types of renewable and sustainable energy sources have been applied to bitcoin mining processes as miners worldwide leverage excess flare gas, hydropower, solar energy, and geothermal solutions.
Just recently, the Bitcoin Mining Council published a report that estimated around 56% of Bitcoin’s SHA256 hashrate was powered by clean energy. In recent times, a great number of operations have also shifted to carbon-neutral methods of acquiring energy to mine bitcoin.
On Wednesday, the bitcoin mining company Compass Mining announced that it is partnering with Oklo Inc. in order to acquire clean energy to fuel its operations. The announcement on Wednesday details that Oklo will provide 150MW of power to Compass for the first phase of the partnership.
Oklo highlights that the firm’s advanced fission process can produce power for Compass for 20 years. Furthermore, there’s never a need to refuel with advanced fission processes and Oklo’s advanced fission powerhouses also leverage “capabilities to turn nuclear waste into clean energy.”
Basically, advanced fission is a form of nuclear fission in which an atom’s nucleus is split into either two or many smaller nuclei. The process produces an output of neutrons and gamma photons which can be leveraged for all types of energy purposes.
The fission of heavy elements was first discovered in 1938 by Otto Hahn and Fritz Strassmann. Fission does not depend on fossil fuels but the elements needed to create advanced fission processes are hard to find since elements like uranium and plutonium are used. People have also taken issue with the toxic waste left behind as it’s an extremely difficult waste product to dispose of.
Oklo’s Advanced Fission Method Is Different Than the Traditional Nuclear Fission Formula
Oklo’s advanced fission method uses a different approach and doesn’t utilize moderators like water to slow neutrons. Oklo foregoes this process as doing so allows neutrons to move much faster through the use of a smaller facility. The company also deploys a refined form of the uranium-235 isotope compared to the traditionally used uranium-238.
By using uranium-235, Oklo’s reactor can run substantially longer than traditional nuclear fission sites that need to refuel more often. Jacob DeWitte, the cofounder and CEO of Oklo, detailed on Wednesday that the company looks forward to working with Compass Mining.
“We are proud to blaze new trails on the commercialization of our powerhouses by partnering with Compass in decarbonizing Bitcoin,” DeWitte said in a statement. “Cryptocurrency mining offers promising pathways to accelerate the deployment of clean energy technologies, and Oklo is positioned to respond to commercial demands by offering end-users the convenience of buying clean, reliable, and cost-effective power that they can depend on,” the Oklo executive added.
Whit Gibbs, the cofounder and CEO of Compass, believes that partnering with Oklo will help “redefine the energy landscape for cryptocurrency mining.” Earlier this year, Oklo also became the first company in its sector to get an application accepted by the U.S. Nuclear Regulatory Commission (NRC) to construct and operate an advanced fission plant.
“Compass is thrilled to partner with a cutting-edge team like Oklo,” Gibbs added. “Together we can push the Bitcoin mining industry forward into a new phase of cheap and reliable power from advanced fission. Every bitcoin miner understands the need for cheap, reliable power.”
What do you think about the partnership between Oklo and Compass Mining? What do you think about bitcoin miners leveraging advanced fission processes? Let us know in the comments section below.