According to China Huaneng – the lead organisation in the consortium to build the demonstration unit – the second reactor at the facility, which is also known as Shidaowan, reached first criticality on 11 November and will now follow a similar pathway of tests to those carried out at the first reactor.
Unit 1, which reached first criticality in September, is scheduled to be connected to the electricity grid before the end of this year and to begin generating electricity for the grid in 2022.
The gas-cooled HTR-PM is a Generation-IV reactor design with twin reactor modules of 100 MW each driving a single 200-MW steam turbine.
Its fuel is in the form of thousands of six-centimetre graphite pebbles containing uranium enriched to 8.9% uranium-235. Instead of cooling water, the reactor’s graphite core is bathed in inert helium gas with an outlet temperature of up to 750°C.
In line with the Generation-IV concept, the HTR-PM reactor can shut down safely in the event of an emergency without causing a core meltdown or significant leak of radioactive material.
China Huaneng said the plant is suitable for small and medium-sized power grids and has a range of potential commercial applications, including power generation, cogeneration of heat and power, and high-temperature process heat applications.
Other consortium members are China National Nuclear Corporation subsidiary China Nuclear Engineering Corporation (32.5%) and Tsinghua University's Institute of Nuclear and New Energy Technology (20%), which is the research and development leader.
Work on the HTGR began in December 2012 and it had had been expected to start generation in 2019, which would have made it the first Generation IV reactor to enter operation. No reason has been given for the delay.