The Nuclear Renaissance: Powered by Innovation, Enabled by Partnerships

The Urgency of Decarbonizing: Why Nuclear Energy Matters

The global energy landscape is undergoing a seismic shift. As nations strive to meet climate goals and reduce carbon emissions, the urgency to decarbonize the global energy mix has never been greater. The International Energy Agency (IEA) forecasts that electricity demand will grow by over 60% by 2040, driven by electrification across transport, industry, and infrastructure. To meet this demand sustainably, low-carbon energy sources must supply 90% of electricity generation by 2050.

While renewables like solar and wind have made remarkable progress, they face challenges of intermittency and grid stability. Here, nuclear power re-emerges as a critical solution, not as a legacy technology, but as a vital pillar of the future. Once viewed with skepticism, nuclear is now seen as essential to achieving net-zero targets.

The World Nuclear Industry Status Report 2025 highlights more than 400 operational reactors, 60 under construction, and dozens of countries exploring Small Modular Reactors (SMRs). The perception of nuclear power is evolving from controversial to indispensable.

“Nuclear power is one of the few options available to decarbonize electricity at scale while ensuring grid stability.” - Oxford Energy Forum, 2024

Challenges Facing the Nuclear Industry

Despite its vast potential, the nuclear sector faces significant challenges that must be addressed to fully contribute to the global energy transition.

• Building New Capacity at Scale and Speed
  Europe and North America have ambitious plans to build new reactors. Projects like Hinkley Point C (UK) and Flamanville (France) demonstrate both the promise and complexity of large-scale nuclear infrastructure. Yet, these initiatives expose a critical challenge, a shortage of skilled engineering resources.
  
  According to Amerit Consulting, nearly 40% of nuclear engineers in the United States are eligible for retirement within the next decade, while the number of new graduates continues to decline. This growing talent gap could slow progress just as climate change accelerates faster than infrastructure can keep up. The urgency to deliver new decarbonized capacity has never been greater, yet the project pipeline already exceeds current engineering capability across Europe.
  
  

  “To meet the demands of new projects, decommissioning operations, and work on the current fleet, companies in the sector plan to recruit around 4,000 engineers per year.” - Bernard Doroszczuk, French Nuclear Safety Authority (ASN)

  
  Modern nuclear projects call multidisciplinary expertise in civil, electrical, instrumentation, process, and safety systems engineering, supported by close coordination across international teams. Speed is critical, but safety and quality must never be compromised. The challenge lies in accelerating delivery timelines while maintaining the highest standards of rigor, regulatory compliance, and safety assurance. Meeting this challenge calls for innovative partnerships and scalable engineering support, which is precisely where Cyient continues to make a real difference.
  

  
  

  “It’s time for the nuclear industry to come into the 21st century, to bring digital technologies along, but we also recognize that there are many challenges ahead.” - William D. Magwood, Director-General, Nuclear Energy Agency (NEA)

  
  
• Prolonging Reactor Lifespans: A Data Challenge
  Many reactors across the globe are over 30 years old. In France, for example, the 900 MWe and 1300 MWe reactor fleets were designed and built by a generation of highly skilled engineers who are now retiring. Extending the life of these reactors is essential to ensure energy security and to avoid reliance on carbon-intensive alternatives.
  
  However, life extension is not merely a technical issue it is a data challenge. Many nuclear facilities still rely on paper-based maintenance records, making modernization complex and time-consuming. The key lies in digitalizing technical documentation to enable informed decisions, predictive maintenance, and safe system upgrades.
  
  
• Developing New Technologies Like SMRs
  Small Modular Reactors (SMRs) represent the next frontier in nuclear innovation. Designed for decentralized energy generation, they can power remote industrial sites, data centers, and even small cities. They offer flexibility, scalability, and enhanced safety features.
  
  But SMRs also require new engineering models, regulatory frameworks, and supply chains. The challenge is to develop and deploy SMRs at pace, while ensuring interoperability with existing infrastructure.

Cyient: The Partnership DNA

Cyient brings together engineering capacity, digital expertise, and global reach to help the nuclear industry overcome its most pressing challenges. With a deep commitment to collaboration, Cyient acts as an enabler, not a competitor, helping nuclear leaders achieve their goals faster and more efficiently.

1. Engineering Capacity at Scale
   Cyient leverages India’s vast pool of engineering talent to provide scalable support for nuclear projects in Europe and North America. With expertise across civil, structural, electrical, instrumentation, process, and mechanical engineering, Cyient serves as a trusted capacity partner, taking on non-core studies and allowing nuclear specialists to focus on core technologies.
   
   This proven delivery model has already demonstrated success across aerospace, transportation, and energy sectors, and is now delivering tangible results with global nuclear leaders.
   
   
2. The power of combining multidisciplinary expertise with digital innovation
   Cyient’s integrated teams can accelerate project timelines by working across disciplines and geographies. With global delivery centers and proven project management frameworks, Cyient ensures that engineering support is fast, flexible, and reliable.
   
   What truly differentiates Cyient is Intelligent Engineering: the fusion of precision engineering and digital innovation. With over 15 years of nuclear expertise, more than 3 million engineering hours, and participation in 20+ global projects, Cyient proudly stands as the first Indian company to receive U.S. DOE 810 export authorization, combining regulatory credibility with hands-on delivery excellence.
   
   Cyient’s contributions to the nuclear sector include:
   • Leading the structural design of auxiliary and turbine buildings
   • Performing complex piping analyses and containment calculations for gigawatt-scale plants
   • Integrating safety and non-safety control systems for nuclear plants, waste treatment facilities, and boration systems
     
     
3. Digitalization for Life Extension and Modernization
   Cyient specializes in Integrated data platforms for predictive maintenance, analytics, and cloud-enabled collaboration. The company has extensive experience in digitizing legacy technical documentation and extracting data from sources such as as-built drawings, vendor documentation, and maintenance reports.
   
   Using AI and metadata extraction, Cyient designs searchable databases and custom-built platforms that support informed decision-making for modernization and life extension. This expertise is critical for aging reactors that must modernize from analog to digital operations while safeguarding intellectual property and cybersecurity in one of the world’s most sensitive industries.
   
   

   “Cyient’s ability to transform analog data into actionable digital intelligence is a game-changer for aging nuclear assets.”- Amerit Consulting, 2025

    

4. SMR Development and Distributed Power Expertise
   As the nuclear industry pivots toward decentralized energy, SMRs are gaining traction. These compact reactors will be deployed in remote locations, industrial zones, and even urban environments. They offer a flexible solution to the growing demand for clean, reliable power.
   
   Cyient is uniquely positioned to support SMR development, thanks to its experience in distributed thermal power generation. Over the years, we have provided engineering, instrumentation, and control systems support to hundreds of major power generation projects. This experience translates directly to SMRs, which require similar expertise in modular design, safety systems, and integration with local grids.

Call to Action: Let’s Build the Future Together

The energy transition is a shared challenge. No single player can do it alone. The nuclear industry needs partners who bring engineering capacity, digital innovation, and a global mindset. Cyient offers all three.

As global demand accelerates and the nuclear sector transforms, Cyient is not just keeping pace: we’re actively driving what’s next. For over a decade, we have partnered with leading nuclear organizations to strengthen operational resilience, engineering precision, and digital capabilities across the lifecycle of nuclear projects.

As we approach WNE2025, the world’s leading nuclear exhibition, let’s explore how collaboration can unlock the full potential of nuclear energy. Whether you're building new reactors, extending the life of existing ones, or developing SMRs, Cyient will be your success multiplier if we do it TOGETHER!

About the Author

Antony Roubin
Director Sales - Energy, Cyient

Antony leads Sales for the Energy Business in France & Benelux, driving successful delivery of complex projects for major energy players. Passionate about advancing sustainable and resilient models, he actively contributes to transformative initiatives shaping the future of the energy industry