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Editorial: Nurture technologies such as next-generation nuclear reactors for decarbonization

Expectations are growing worldwide for new technologies such as small nuclear reactors as part of efforts to reduce greenhouse gas emissions. To prevent Japan from being left behind the international competition, the government must strengthen its research and development system.

 

The Japan Atomic Energy Agency (JAEA) has resumed the operation of the High Temperature Engineering Test Reactor in Ibaraki Prefecture. It was built in the 1990s to develop a next-generation small reactor but had to be shut down after the accident at Tokyo Electric Power Company Holdings Inc.’s Fukushima No. 1 nuclear plant.

 

The experimental reactor is a high-temperature gas-cooled reactor that uses helium rather than water for cooling. The nuclear fuel in the reactor is covered with ceramics that can withstand high temperatures. Hydrogen explosions and core meltdowns are less likely to occur, and the safety can be said to be superior to that of conventional reactors.

 

Small nuclear reactors, including high-temperature gas-cooled reactors, are called “small modular reactors” (SMRs).

 

The technology is attracting attention in many countries as construction costs of SMRs are expected to be lower compared with conventional nuclear reactors, and their small size makes them more flexible in terms of location.

 

In the United States, venture companies and universities supported by the U.S. Energy Department are rapidly promoting the development of small reactors. China is also actively working on projects and it has reportedly started operating an experimental reactor for practical use.

 

Japan’s research on high-temperature gas-cooled reactors was ahead of other countries. In 2004, Japan was the first country in the world to succeed in achieving a temperature of 950 C. It is hoped that the JAEA will make up for the 10-year delay in research.

 

To realize a decarbonized society, it is said that there is a need for a large amount of hydrogen, which does not emit carbon dioxide when burned. In recent years, high-temperature gas-cooled reactors have been highly evaluated because they can produce hydrogen using the high-temperature gas generated during power generation.

 

The JAEA aims to build a hydrogen production facility adjacent to the experimental reactor and establish a method to produce large amounts of hydrogen in conjunction with power generation.

 

Power generation with solar, wind and other renewable energies is subject to climatic conditions, so the electricity supply tends to be unstable. Hydrogen production also requires a lot of energy. Expectations are high for reactors that can simultaneously generate electricity and produce hydrogen.

 

The restart of nuclear power plants in Japan has stalled, and there are concerns about handing down to next generations technology in the nuclear power industry. The development of nuclear power technology requires long-term plans that span several decades. With an eye on the future, it is necessary to take steps now.

 

The government intends to cooperate with Poland and Britain in the development of high-temperature gas-cooled reactors. Demand for small reactors is expected to grow in developing countries as well. It is important for the government to continue its efforts in order to protect and nurture competitive domestic technologies.

 

— The original Japanese article appeared in The Yomiuri Shimbun on Sept. 17, 2021.

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