GE Hitachi Signs Contract for the First North American Small
Stay informed with our
free newsletters

This news is classified in: Traditional Energy Nuclear

Jan 27, 2023

GE Hitachi Signs Contract for the First North American Small Modular Reactor

  • First-of-a-kind agreement sets a pathway to deploying the BWRX-300 at OPG's Darlington site

GE Hitachi Nuclear Energy (GEH), Ontario Power Generation (OPG), SNC-Lavalin and Aecon have signed a contract for the deployment of a BWRX-300 small modular reactor (SMR) at OPG’s Darlington New Nuclear Project site. This is the first commercial contract for a grid-scale SMR in North America.

“This contract is an important milestone and solidifies our position as the leading SMR technology provider,” said GEH President and CEO Jay Wileman. “We aim to deliver the first SMR in North America and, in doing so, lead the start of a new era of nuclear power that will provide zero-emission energy generation, energy security and energy reliability around the globe. We can’t express our appreciation enough for the leadership role that OPG and the Province of Ontario are taking for a project that will benefit Ontario, Canada and the world.”

The multi-party agreement, through which GEH is to provide the reactor design, covers a range of project activities including design, engineering licensing support, construction, testing, training and commissioning.    

Reactor Cooling Systems Market Report 2023-2033

Reactor Cooling Systems Market Report 2023-2033

Forecasts by Capacity (Small/Medium Reactor, Large Reactor), by Configuration (Once-Through Cooling, Closed-Cycle Cooling, Hybrid Cooling), by Mechanism (Direct Cooling, Indirect Cooling, Passive Cooling, Active Cooling), by System Type (Pressurised Water Reactor (PWR) Cooling System, Boiling Water Reactor (BWR) Cooling System, Advanced Gas-Cooled Reactor (AGCR) Cooling System, Pressurised Heavy Water Reactor (PHWR) Cooling System, Other), by Component (Heat Exchangers, Cooling Towers, Pumps and Valves, Condensers, Cooling Water Treatment Systems, Other) AND Regional and Leading National Market Analysis PLUS Analysis of Leading Companies AND COVID-19 Impact and Recovery Pattern Analysis

Download free sample pages

“This first commercial contract for a small modular reactor in North America marks a significant milestone in deploying SMRs in Canada and across the globe,” said Sean Sexstone, Executive Vice President, Advanced Nuclear, GEH. “We look forward to working with our partners to ensure this project is delivered safely, on-time and within budget, providing significant opportunity for the team and the Province of Ontario. GEH is excited and humbled to be leading the industry as the world looks to adopt SMR technology to help achieve its energy and security objectives.”

There is growing global interest in the BWRX-300. In August 2022, Tennessee Valley Authority (TVA) began planning and preliminary licensing for potential deployment of a BWRX-300 at the Clinch River Site near Oak Ridge, Tennessee. TVA has entered into a collaboration with OPG to coordinate efforts to move SMR technology forward. In addition, the NRC and CNSC are collaborating on licensing the two projects.  

In June 2022, SaskPower announced that it selected the BWRX-300 for potential deployment in Saskatchewan in the mid-2030s. In Poland, ORLEN Synthos Green Energy (OSGE) and its partners started the pre-licensing process by submitting an application to Poland’s National Atomic Energy Agency for assessment of the BWRX-300. OSGE plans to deploy a fleet of BWRX-300s with the potential for deployment of the first of those units by the end of this decade. To support the global deployment of the BWRX-300, GEH has memoranda of understanding or other agreements in place with companies in Canada, Poland, U.K., U.S. and Sweden among others. GEH has also begun the licensing process for the BWRX-300 in the U.K.

 Advanced nuclear technologies like the BWRX-300 are a key pillar of GEH’s energy transition leadership. In addition to helping customers achieve decarbonization goals, the BWRX-300 is designed to reduce construction and operating costs below other nuclear power generation technologies. Specifically, the BWRX-300 leverages a unique combination of existing fuel that is currently used in operating reactors (and does not require HALEU), plant simplifications, proven components and a design based on already licensed reactor technology. 


General Electric (GE)