HTR-PM

The HTR-PM (球床模块式高温气冷堆核电站) is a Chinese small modular nuclear reactor. It is a high-temperature gas-cooled (HTGR) pebble-bed generation IV reactor evolved from the HTR-10 prototype. The technology is intended to replace coal-fired power plants in China's interior, in line with the country's plan to reach carbon neutrality by 2060.

The first plant, the world's first for this type of reactor, has an electrical output of 210 MW. It began producing power in December 2021 and started commercial operation in late 2023.

Technology
The HTR-PM is a high-temperature gas-cooled (HTGR) pebble-bed reactor, the world’s first power plant of this kind. It is a generation IV design. The technology is based on the HTR-10 prototype reactor.

The reactor unit has a thermal capacity of 250 MW. Two reactors are connected to a single steam turbine to generate 210 MW of electricity (210 MWe).

HTR-PM uses a helium coolant and a graphite moderator. Each reactor is loaded with more than 400,000 pebbles.

Each pebble is 60 mm in diameter. They have an outer layer of graphite. Each contains some 12,000 four-layer, ceramic-coated fuel particles of uranium (totaling 7 g) enriched to 8.5% uranium-235 dispersed in a graphite matrix.

The reactor core is 3 m in diameter and 11 m in height. Pressure is maintained at 7 MPa. Steam pressure (for heat transfer) is at 13 MPa and temperature at 567 C.

Primary reactor elements are manufactured in a factory and transported to the site.

History
The demonstration project for the High-Temperature gas-cooled Reactor Pebble-bed Module (HTR-PM) was launched in 2001. Work on the first demonstration power plant, composed of two reactors driving a single steam turbine, began in December 2012 in Shidao Bay Nuclear Power Plant in Shandong province. The pressure vessels of the two reactors were installed in 2016.

A 2018 paper by Rainer Moormann recommended additional safety measures based on experience with the AVR reactor.

The steam generator shell, hot gas duct shell and reactor pressure vessel shell of the first reactor in the project were successfully paired on 28 April 2020, paving the way for the installation of the main helium fan.

Cold functional tests were successfully completed between October and November 2020. The air and helium mixture was pressurized to a maximum of 8.9 MPa in the primary coolant loop. Following the cold functional tests, the hot tests were performed in three stages: vacuum dehumidification, heating and dehumidification and hot functional tests. The hot tests began in December 2020. On 12 September 2021, the first of two reactors achieved criticality. On 11 November 2021, reactor two achieved first criticality. On 20 December 2021, reactor one was connected to the state power grid and began producing power. On 9 December 2022, the HTR-PM project demonstrated it had reached "initial full power". The plant entered commercial operation in December 2023. An updated larger power plant, HTR-PM600, is planned with a capacity of 600 MWe using six HTR-PM reactor units.