![[Westinghouse_logo_and_wordmark.svg|300]] Website: [westinghousenuclear.com](https://westinghousenuclear.com) ### Introduction Westinghouse Electric Company, founded in 1886 by George Westinghouse, is a pioneering force in the nuclear energy industry with a history rooted in innovation. Headquartered in Cranberry Township, Pennsylvania, the company employs thousands of professionals globally, though exact current employee counts are not publicly specified in recent data. Westinghouse’s mission is to shape the future of carbon-free energy by delivering safe, innovative nuclear technology solutions, as stated on their official site ([westinghousenuclear.com](https://westinghousenuclear.com)). The company has been instrumental in developing nuclear power technologies since the mid-20th century, powering the first pressurized water reactor (PWR) and continuing to lead in reactor design and fuel technology. Westinghouse is a privately held company, owned by a consortium led by Brookfield Asset Management and Cameco Corporation, following a series of ownership changes and a bankruptcy filing in 2017. Its transition to private ownership under these Canadian entities in recent years has positioned it for significant growth, particularly with renewed U.S. government support for nuclear energy in 2025. This report compiles the latest available data from web sources, official announcements, and social media to provide a comprehensive overview of Westinghouse’s current status in the nuclear fission sector. ### Key Products and Technology Westinghouse offers a portfolio of advanced nuclear technologies, focusing on large-scale reactors, small modular reactors (SMRs), and microreactors. Below are the major products and their details: - **AP1000® Pressurized Water Reactor (PWR)** - **Type**: Large-scale nuclear reactor - **Technical Specifications**: Power output of approximately 1,110 MWe per unit, with a design focused on passive safety systems. - **Fuel Type**: Enriched uranium. - **Key Differentiators**: Features passive safety systems that rely on natural forces like gravity and convection, reducing the need for active intervention during emergencies; designed for a 60-year operational life with potential for extension. - **Development Stage**: Operational, with units already deployed (e.g., Vogtle Units 3 and 4 in Georgia, USA) and more planned under recent U.S. government partnerships. - **Target Customers**: Utilities and governments seeking reliable, large-scale baseload power. - **AP300™ Small Modular Reactor (SMR)** - **Type**: Small modular reactor - **Technical Specifications**: Power output of approximately 300 MWe, scalable for smaller grid needs. - **Fuel Type**: Enriched uranium. - **Key Differentiators**: Builds on the proven AP1000 technology with a smaller footprint, offering flexibility for deployment in diverse locations; emphasizes cost efficiency through modular construction. - **Development Stage**: In design and pre-licensing phase, with plans for deployment in the coming decade. - **Target Customers**: Utilities, industrial facilities, and regions with constrained grid capacity. - **eVinci™ Microreactor** - **Type**: Microreactor - **Technical Specifications**: Power output of up to 5 MWe, designed for remote or off-grid applications. - **Fuel Type**: High-assay low-enriched uranium (HALEU). - **Key Differentiators**: Compact, transportable design with minimal moving parts; can operate for up to 8 years without refueling; ideal for remote or critical infrastructure power. - **Development Stage**: Front-end engineering and experiment design (FEEED) phase completed, with potential physical testing as early as 2026, as noted in posts on X. - **Target Customers**: Government (military bases), remote communities, industrial sites, and data centers. Westinghouse’s technologies are positioned to address a wide range of energy needs, from large-scale grid power to niche, off-grid applications, leveraging decades of expertise in PWR design. ### Regulatory and Licensing Status Westinghouse has a long history of engagement with the U.S. Nuclear Regulatory Commission (NRC) for its reactor designs. The AP1000® reactor has received design certification from the NRC and is fully licensed for operation in the U.S., with operational units at Vogtle Electric Generating Plant in Georgia. Combined licenses (COLs) for additional AP1000 units are under consideration as part of the recent $80 billion partnership with the U.S. government announced in October 2025 ([Reuters](https://www.reuters.com/business/energy/westinghouse-electric-cameco-corp-brookfield-asset-management-80-bln-nuclear-2025-10-28/)). The AP300™ SMR is in the pre-application phase with the NRC, leveraging the certified AP1000 design to streamline regulatory review. The eVinci™ microreactor is also in early regulatory engagement, with Westinghouse working toward licensing milestones in anticipation of testing in 2026. Key upcoming milestones include the submission of formal applications for the AP300 and eVinci designs, though specific timelines remain fluid. Commercial deployment for the AP300 is targeted for the early 2030s, while eVinci could see deployment sooner if testing succeeds, potentially by the late 2020s. Regulatory information is based on updates from the company’s website and industry news ([westinghousenuclear.com](https://westinghousenuclear.com)). ### Team and Leadership Westinghouse’s leadership team comprises experienced professionals in nuclear energy and engineering. Key executives include: - **Dan Sumner, Interim CEO**: Appointed to lead during a transitional period, Sumner has been instrumental in articulating Westinghouse’s ambitious plans for reactor deployment under recent U.S. government initiatives, as noted in company announcements on X ([@WECNuclear](https://x.com/WECNuclear)). - **Patrick Fragman, President and CEO (on leave as of recent updates)**: Previously led Westinghouse with a focus on global expansion and innovation in nuclear technology; his current status is unclear from public data. - **Dr. Rita Baranwal, Senior Vice President, Energy Systems**: Oversees advanced reactor development, including the eVinci microreactor, bringing expertise from her prior role as Assistant Secretary for Nuclear Energy at the U.S. Department of Energy. Specific social media handles for individuals beyond the corporate account are not verified in current data and are therefore omitted. Leadership information is sourced from the company’s official site and recent news releases ([westinghousenuclear.com](https://westinghousenuclear.com)). ### Funding and Financial Position Westinghouse, as a private entity, does not disclose detailed financials publicly. However, a historic $80 billion partnership with the U.S. government, announced on October 28, 2025, in collaboration with Brookfield Asset Management and Cameco Corporation, marks a significant financial and strategic milestone. This deal aims to fund the construction of new AP1000 and AP300 reactors across the U.S. ([Reuters](https://www.reuters.com/business/energy/westinghouse-electric-cameco-corp-brookfield-asset-management-80-bln-nuclear-2025-10-28/)). Specific funding rounds or total capital raised prior to this agreement are not detailed in recent public data. Key institutional backers include Brookfield Asset Management and Cameco Corporation, which acquired Westinghouse in a joint venture post-2018. The company is not publicly traded, so market cap and stock performance data are inapplicable. Revenue status indicates commercial scale operations, with income from operational reactors, fuel services, and maintenance contracts, though exact figures are unavailable. Financial insights are limited to partnership announcements and industry reports. ### Recent News and Developments | Date | Event | Details | |---------------|------------------------------------|---------------------------------------------------------------------------------------------| | Oct 28, 2025 | $80 Billion U.S. Government Deal | Partnership with U.S. government, Brookfield, and Cameco to build $80 billion in new reactors using AP1000 and AP300 technology ([Reuters](https://www.reuters.com/business/energy/westinghouse-electric-cameco-corp-brookfield-asset-management-80-bln-nuclear-2025-10-28/)). | | Jul 15, 2025 | Plan for 10 Reactors by 2030 | Interim CEO Dan Sumner announced plans to have 10 large reactors under construction by 2030, creating $75 billion in economic impact ([@WECNuclear](https://x.com/WECNuclear)). | | Jun 10, 2025 | $75 Billion Expansion Target | Westinghouse targets $75 billion nuclear expansion following executive order from President Trump, as reported by Financial Times ([@WECNuclear](https://x.com/WECNuclear)). | | May 23, 2025 | U.S. Executive Order on Nuclear | President’s executive order calls for accelerated nuclear deployment, positioning Westinghouse for growth ([westinghousenuclear.com](https://westinghousenuclear.com)). | | Apr 2, 2025 | Technology Updates | Continued promotion of AP1000, AP300, and eVinci technologies for diverse energy needs ([westinghousenuclear.com](https://westinghousenuclear.com)). | ### Partnerships and Collaborations - **U.S. Government**: A strategic partnership announced in October 2025, valued at $80 billion, to deploy new nuclear reactors, reinforcing Westinghouse’s role in national energy security and AI-driven power demand ([westinghousenuclear.com](https://westinghousenuclear.com)). - **Brookfield Asset Management and Cameco Corporation**: Ownership and strategic collaboration to fund and fuel Westinghouse’s expansion, with Cameco providing uranium supply and Brookfield supporting asset development ([Reuters](https://www.reuters.com/business/energy/westinghouse-electric-cameco-corp-brookfield-asset-management-80-bln-nuclear-2025-10-28/)). - **Utilities (e.g., Southern Company)**: Ongoing partnerships for AP1000 deployment at sites like Vogtle, providing a model for future utility collaborations in the U.S. and abroad. These partnerships highlight Westinghouse’s integration into both governmental and commercial nuclear ecosystems, enhancing its capacity for large-scale deployment. ### New Hampshire Relevance Westinghouse’s technologies could align well with [[New Hampshire]]’s energy needs, given the state’s existing nuclear infrastructure at [[Seabrook Station]] and its connection to the ISO New England grid. The AP300™ SMR, with its 300 MWe output, could be a feasible option for supplementing grid power in a state with constrained energy resources, while the eVinci™ microreactor might serve remote or industrial applications, such as powering data centers or providing industrial heat. Seabrook’s proximity and operational history with PWR technology (similar to Westinghouse’s designs) suggest potential for infrastructure synergy. Technology readiness varies: while AP1000 is deployable now, AP300 and eVinci are not yet licensed, likely delaying NH deployment to the 2030s. New Hampshire’s legislative initiatives, such as HB 710, which explores SMRs for energy diversification, align with Westinghouse’s offerings. The company has not publicly expressed specific interest in NH, but its focus on the Northeast U.S. market (evident from Vogtle and broader U.S. plans) suggests potential applicability. Applications could include grid support amid growing data center loads in the region, though no direct NH connections are documented. ### Competitive Position Westinghouse faces competition from companies like [[GE Vernova Hitachi Nuclear Energy|GE Hitachi]] Nuclear Energy, [[[[NuScale Power]]]], and [[[[Holtec International]]]] in the nuclear fission market. [[GE Vernova Hitachi Nuclear Energy|GE Hitachi]]’s BWRX-300 SMR offers a competing modular design with a boiling water reactor approach, potentially appealing to different utility preferences. NuScale Power, with its VOYGR SMR (already in NRC certification), targets similar smaller-scale markets as the AP300 but is further along in regulatory approval. Westinghouse’s advantage lies in its proven AP1000 track record and passive safety systems, though cost overruns at projects like Vogtle (noted in posts on X) pose reputational risks. Its broad portfolio, spanning large reactors to microreactors, provides unique flexibility compared to competitors focused solely on SMRs. ### Closing Note Westinghouse Electric Company is at a pivotal stage, leveraging a historic $80 billion U.S. government partnership to drive nuclear expansion with a strong outlook for growth in the coming decade. *Report generated December 24, 2025*