![[arc logo-transparent.jpg|300]] Website: [arc-cleantech.com](https://www.arc-cleantech.com) ### Introduction ARC Clean Technology, founded in 2007, is a Canadian clean energy company headquartered in Saint John, New Brunswick, Canada. The company was established with a mission to reshape the energy industry by providing affordable, scalable, and carbon-free electricity and industrial heat through advanced nuclear technology. While specific founder information is not publicly detailed in the latest sources, ARC has grown to become a notable player in the small modular reactor (SMR) space, focusing on sustainable energy solutions. Employee count specifics are unavailable in current public data, but the company maintains a significant presence with over 5,000 followers on LinkedIn, indicating a substantial team and network ([LinkedIn](https://ca.linkedin.com/company/arc-cleantech)). ARC Clean Technology is a private company with no public ticker symbol, and it operates with a focus on developing innovative nuclear fission technologies to meet global decarbonization goals. Its efforts are centered on delivering reliable, low-carbon energy solutions that can support a variety of applications, from grid electricity to industrial processes, positioning it as a key contributor to the clean energy transition in North America and beyond. ### Key Products and Technology - **ARC-100 (Advanced Small Modular Reactor - SMR)** - **Type**: Sodium-cooled fast reactor - **Technical Specifications**: 100 MWe (megawatts electric) capacity, capable of supporting electricity needs for approximately 250,000 people ([arc-cleantech.com](https://www.arc-cleantech.com/technology)). - **Fuel Type**: Utilizes nuclear fuel in a closed fuel cycle, with potential for on-site or nearby reprocessing using pyroprocessing technology, as demonstrated by the Experimental Breeder Reactor-II (EBR-II) prototype ([X posts](https://x.com/AnStra14)). - **Key Differentiators**: Simple and safe design based on proven technology from Argonne National Laboratory’s EBR-II, offering both electricity and industrial heat applications. Its modular design aims to reduce costs and improve safety ([ans.org](https://www.ans.org/news/2025-06-24/article-7132/arc-clean-technology-deep-atomic-partner-on-smr-deployment/)). - **Development Stage**: Advanced design phase with no fundamental barriers to licensing identified by the Canadian Nuclear Safety Commission (CNSC) as of July 2024; targeting completion at Point Lepreau site in New Brunswick by the late 2020s ([X posts](https://x.com/AnStra14); [LinkedIn](https://ca.linkedin.com/company/arc-cleantech)). - **Target Customers**: Utilities, data centers (especially for AI infrastructure), and industrial sectors requiring heat and power ([capacitymedia.com](https://www.capacitymedia.com/article/arc-clean-technology-deep-atomic-nuclear-energy)). ARC Clean Technology’s primary focus is on the ARC-100, which leverages decades of research to offer a scalable solution for carbon-free energy. Its sodium-cooled design and closed fuel cycle capability set it apart in terms of safety and sustainability, addressing both energy security and environmental concerns. ### Regulatory and Licensing Status ARC Clean Technology has made significant progress in regulatory milestones for the ARC-100 reactor in Canada. The company completed Phase 2 of the Canadian Nuclear Safety Commission (CNSC) Vendor Design Review (VDR) process as of July 9, 2024, with no fundamental barriers to licensing identified, marking a pivotal step toward commercial deployment ([X posts](https://x.com/AnStra14)). This review process is a pre-licensing step that assesses the reactor design against Canadian regulatory requirements and standards. The ARC-100 has been selected for implementation at the Point Lepreau site in New Brunswick, Canada, in collaboration with New Brunswick Power, with a target completion timeline in the late 2020s ([LinkedIn](https://ca.linkedin.com/company/arc-cleantech)). Upcoming regulatory steps likely include further detailed design reviews and site-specific licensing applications. While specific timelines for first commercial deployment remain tied to the late 2020s, continued collaboration with regulatory bodies and project partners will be critical to meeting these targets. ### Team and Leadership Detailed public information on ARC Clean Technology’s leadership team is limited in current sources. The company’s official website and LinkedIn profile do not list specific executives or founders by name in the most recent updates. Efforts to identify key personnel such as the CEO or CTO through news articles and social media yielded no verified individuals or handles. As a private entity focused on technology development, ARC appears to maintain a low profile regarding individual leadership publicity, prioritizing project and partnership announcements over personal branding. Updates on leadership may be available through direct contact with the company or future press releases. ### Funding and Financial Position ARC Clean Technology has recently attracted significant investment, reflecting growing interest in advanced nuclear technologies. In December 2025, multiple posts on X reported that YEO Teknoloji Enerji, a Turkish company, invested in ARC Clean Technology at a valuation of $60.4 million, aligning with their strategy for energy transformation and advanced technology investments ([X posts](https://x.com/midasgundem)). Additionally, a post on X from Growth List on December 22, 2025, mentioned a $15 million funding round for ARC, though specifics on the date or lead investors were not provided ([X posts](https://x.com/GrowthLists)). Earlier in 2025, ARC closed a major funding round alongside other advanced nuclear developers, as reported by Power Magazine on December 18, 2025, though exact amounts for ARC were not specified ([powermag.com](https://www.powermag.com/advanced-nuclear-developers-raise-new-capital-as-2025-investment-hits-record-levels-and-demonstrations-near/)). As a private company, ARC does not disclose detailed financials or revenue status publicly, but it appears to be pre-revenue, focusing on technology development and project planning. Strategic backers include international partners like YEO Teknoloji Enerji, indicating confidence in ARC’s growth trajectory. ### Recent News and Developments | Date | Event | Details | |---------------|------------------------------------|---------------------------------------------------------------------------------------------------| | Dec 22, 2025 | Investment by YEO Teknoloji Enerji | Turkish company invested at a $60.4 million valuation for ARC’s SMR technology development ([X posts](https://x.com/midasgundem)). | | Dec 18, 2025 | Major Funding Round | ARC among advanced nuclear developers raising capital for SMR deployment ([powermag.com](https://www.powermag.com)). | | Jun 24, 2025 | Partnership with Deep Atomic | MOU signed to explore ARC-100 deployment for AI data centers in North America ([ans.org](https://www.ans.org/news/2025-06-24/article-7132/arc-clean-technology-deep-atomic-partner-on-smr-deployment/)). | | Jun 18, 2025 | Collaboration Announcement | ARC and Deep Atomic aim to power data centers with carbon-free nuclear energy ([capacitymedia.com](https://www.capacitymedia.com/article/arc-clean-technology-deep-atomic-nuclear-energy)). | | Jun 17, 2025 | MOU with Deep Atomic | Framework for site identification and feasibility studies for ARC-100 near hyperscale infrastructure ([arc-cleantech.com](https://www.arc-cleantech.com/news/90/39/ARC-Clean-Technology-and-Deep-Atomic-Sign-MOU-to-Explore-Deployment-of-ARC-100-Nuclear-Reactor-for-Data-Centers-and-AI-Infrastructure)). | These events highlight ARC’s focus on strategic partnerships and funding to accelerate the deployment of its nuclear technology, particularly for high-demand sectors like AI infrastructure. ### Partnerships and Collaborations - **Deep Atomic**: In June 2025, ARC signed a memorandum of understanding (MOU) with Deep Atomic, a Swiss-American company specializing in hyperscale and edge data center development. This partnership focuses on deploying ARC-100 reactors to power data centers across North America, leveraging Deep Atomic’s expertise in project development and technology integration for AI infrastructure. The strategic value lies in addressing the exponential power demand from AI and high-performance computing ([ans.org](https://www.ans.org/news/2025-06-24/article-7132/arc-clean-technology-deep-atomic-partner-on-smr-deployment/)). - **New Brunswick Power**: ARC collaborates with New Brunswick Power for the deployment of the ARC-100 at the Point Lepreau site in Canada, targeting completion by the late 2020s. This partnership is critical for demonstrating the commercial viability of ARC’s technology in a utility setting and supports regional decarbonization goals ([LinkedIn](https://ca.linkedin.com/company/arc-cleantech)). These partnerships underscore ARC’s strategy of aligning with both traditional utilities and emerging high-energy sectors to expand the reach of its SMR technology. ### New Hampshire Relevance ARC Clean Technology’s ARC-100 reactor presents a potential fit for [[New Hampshire]], given the state’s existing nuclear infrastructure and energy needs. New Hampshire hosts [[Seabrook Station]], a major nuclear power plant, and is part of the ISO New England (ISO-NE) grid, which could facilitate integration of additional nuclear capacity like the ARC-100 for grid power stability. The reactor’s 100 MWe output and dual capability for electricity and industrial heat align well with potential applications in NH, including supporting grid power, powering data centers (a growing load in the Northeast), and providing heat for industrial processes. The technology readiness of ARC-100, with a targeted deployment in the late 2020s in Canada, suggests a timeline that could align with NH’s future energy planning, especially under legislative initiatives like HB 710, which may encourage clean energy development, though specific SMR provisions are not detailed in current public data. While ARC has not publicly expressed specific interest in New Hampshire, its focus on North American deployment (e.g., through the Deep Atomic partnership) indicates potential interest in the Northeast US market, where energy demand and decarbonization goals are pressing. No direct NH connections were identified, but proximity to Canadian operations and relevance to ISO-NE make it a candidate for future exploration. ### Competitive Position ARC Clean Technology competes in the advanced nuclear space with companies like [[NuScale Power]], [[[[Oklo]]]], and [[[[TerraPower]]]]. [[NuScale Power]], with its VOYGR SMR (50 MWe per module), has progressed further in regulatory approval, receiving NRC design certification, and targets utility-scale deployment ([nuscale.com](https://www.nuscalepower.com)). Oklo focuses on microreactors (15 MWe) for niche applications like remote communities and industrial sites, with recent DOE approvals for fuel fabrication ([X posts](https://x.com/oklo)). TerraPower’s Natrium reactor (345 MWe) emphasizes energy storage integration with sodium-cooled technology, backed by significant funding from Bill Gates ([terrapower.com](https://www.terrapower.com)). ARC’s unique advantage lies in its ARC-100’s mid-range capacity (100 MWe), suitability for both electricity and heat, and proven design heritage from EBR-II, potentially reducing technical risks. However, it faces risks from slower regulatory progress compared to NuScale and competition from larger-scale designs like TerraPower’s, which may appeal to bigger utilities. ARC’s focus on data center power through partnerships like Deep Atomic provides a niche market edge. ### Closing Note ARC Clean Technology is at an advanced development stage with its ARC-100 SMR, showing promising trajectory through recent funding and partnerships, with a positive outlook for commercial deployment by the late 2020s. *Report generated December 24, 2025*