2019 has been declared by UNESCO as the Year of the Periodic Table. To celebrate, we are releasing a series of blogs about our favourite elements and their importance to the chemical industry. Today’s blog focuses on sodium and its role in the next series of innovative nuclear energy systems.


Sodium; the sixth most abundant element on the planet is being considered as a crucial part of nuclear reactors. Implementing new safety levels in reactors is crucial as governments are looking for environmentally friendly, risk-free and financially viable reactors. Therefore, ensuring new safety levels is a main challenge that is being tackled by many industries and projects.

safety sign gif

Originally posted by contac

In the wake of Fukushima, several European nations and a number of U.S plants have shut down and switched off their ageing reactors in order to eliminate risk and safety hazards.

The sodium- cooled fast reactor (SFR), a concept pioneered in the 1950s in the U.S, is one of the nuclear reactors developed to operate at higher temperatures than today’s reactors and seems to be the viable nuclear reactor model. The SFR’s main advantage is that it can burn unwanted byproducts including uranium, reducing the need for storage. In the long run, this is deemed cost-competitive as it can produce power without having to use new natural uranium.

 nuclear reactor

 Nuclear reactor. Source: Hallowhalls

However, using sodium also presents challenges. When sodium comes into contact with air, it burns and when it is mixed with water, it is explosive. To prevent sodium from mixing with water, nitrogen - driven turbines are in the process of being designed as a solution to this problem.

colourful explosion gif

Originally posted by angulargeometry

A European Horizon 2020 Project, ESFR-SMART project (European Sodium Fast Reactor Safety Measures Assessment and Research Tools), launched in September 2017, aims to improve the safety of Generation-IV Sodium Fast Reactors (SFR). This project hopes to prove the safety of new reactors and secure its future role in Europe. The new reactor is designed to be able to reprocess its own waste, act more reliably in operation, more environmentally friendly and more affordable. It is hoped that this reactor will be considered as one of the SFR options by Generation IV International Forum (GIF), who are focused on finding new reactors with safety, reliability and sustainability as just some of their main priorities.

 EU flag

European Horizon. Source: artjazz

Globally, the SFR is deemed an attractive energy source, and developments are ongoing, endeavouring to meet the future energy demands in a cost-competitive way.