Towards More Sustainable Nuclear Energy with Non-Electric Applications: Opportunities and Challenges

Cogeneration also holds other benefits for the nuclear industry: it could increase the flexibility of electricity production by adjusting the plant’s output between electrical and heat products, as demand for electricity fluctuates, said the Co-Chair of the 16th Dialogue Forum, industry expert Juergen Kupitz from Germany.

Another opportunity the participants emphasized is seawater desalination by nuclear energy. “This could substantially increase the fresh water supply in many regions and thus contribute to development and increased standard of living,” Kupitz added. “Water, energy and a healthy environment are basic life support systems.”

Ramesh Sadhankar, from the Canadian Nuclear Laboratories, spoke of the broader market potential of cogeneration to the nuclear industry. Heat markets are larger than electricity markets but are often local in nature, being tied to specific industrial activities, he observed.

Following panel and break out group discussions, the participants agreed on several issues considered as challenges and barriers for nuclear cogeneration to enter commercial markets: economics and energy market conditions remain a primary challenge. The lack of political commitment and low public acceptance also can present significant challenges. In specific cases, technical and regulatory issues, and a requirement for an operating reference plant, can present other barriers.

The deployment of advanced technologies such as small modular reactors (SMRs) and high temperature reactors (HTRs) may not immediately accelerate the deployment of non-electric applications of nuclear power. Many countries, particularly nuclear newcomers, require ‘demonstrated technology’ and may not accept a ‘first of a kind’ technology for both electricity generation and nuclear cogeneration. Some participants pointed out that large scale demonstration plants would be important for accepting a given heat market technology. However, in many cases, a reactor supplier country may not be able to economically justify a large scale demonstration of a heat application on its own soil unless a suitable business case can be made. Adjustments in regulatory approaches are required to overcome this problem, participates said.

Some non-electric applications of nuclear energy may also require specific licencing, the development of new regulations and approval from national regulatory bodies. Nuclear power plants that want to use their excess heat for cogeneration may need different licences. Cogeneration also requires qualified human resources and specific expertise, and its lack constitutes a barrier to non-electric applications of nuclear power.

Co-Chair Xin Yan, from the Japan Atomic Energy Agency, summarized how to overcome the challenges ahead of non-electric applications of nuclear energy: “First, we need to learn from other conventional industries who have been successful in forming alliances,” he said. This is happening already on a smaller scale, as the Republic of Korea and Saudi Arabia have joined forces to develop an SMR for desalination and cogeneration in the Middle East,” he added.

“Second, the IAEA is the best international body to help guide Member States to develop non-electric applications and should play a larger role in increasing public awareness. And thirdly, nuclear newcomer countries should make use of available tools, such as those offered by the IAEA, to understand non-electric applications, to help them in their economic development and to understand the technical challenges.”