Google's first small modular nuclear reactor lands in Tennessee to power data centers by 2030
Google announced on Monday that it has selected Tennessee as the site for its first small modular nuclear reactor project, planning to supply power to local data centers starting in 2030. According to the agreement, Google will obtain 500 megawatts of nuclear power generation capacity through a partnership between Kyros Power and the Tennessee Valley Authority, with the generated electricity being delivered to data centers in Tennessee and Alabama. Tennessee Valley Authority CEO Don Morrow emphasized in a statement: "Nuclear energy is a crucial cornerstone for future energy security. This collaboration with Google not only shares the costs and risks of pioneering nuclear energy projects but also avoids shifting the burden of technology development onto end customers. This model has strategic significance for Google, the Authority's over ten million users, and the overall energy structure of the United States." This initiative continues the nuclear energy procurement agreement signed by Google in October, aiming to meet the surging electricity demand driven by artificial intelligence technologies through multiple small modular reactors. The project utilizes advanced reactor technology developed by Kyros Power and integrates with the Tennessee Valley Authority's grid system, marking another significant investment by the tech giant in the clean energy sector
According to Zhitong Finance APP, Google (GOOGL.US) announced on Monday that it has selected Tennessee as the site for its first small modular reactor project, planning to supply power to local data centers starting in 2030. Under the agreement, Google will obtain 500 megawatts of nuclear power generation capacity through a partnership between Kyros Power and the Tennessee Valley Authority, with the generated electricity being delivered to data centers in Tennessee and Alabama.
Tennessee Valley Authority CEO Don Morrow emphasized in a statement: "Nuclear energy is a crucial cornerstone for future energy security. This collaboration with Google not only shares the costs and risks of an innovative nuclear project but also avoids transferring the burden of technology development to end customers. This model has strategic significance for Google, the Authority's over ten million users, and the overall energy structure of the United States."
This initiative continues the nuclear power procurement agreement signed by Google in October, aiming to meet the surging electricity demand driven by artificial intelligence technologies through multiple small modular reactors. The project utilizes advanced reactor technology developed by Kyros Power and integrates with the Tennessee Valley Authority's grid system, marking another significant investment by the tech giant in the clean energy sector
