The Next Generation Nuclear Plant (NGNP) is part of the federal government's effort to advance commercial nuclear reactor designs beyond the current generation that is being deployed around the world. Additionally, the NGNP is a key component in the Administration's plans to develop the hydrogen economy. Another important purpose of the advanced nuclear demonstration plant is to produce hydrogen on a large scale.
The technology involved in the NGNP is sometimes referred to as the very-high temperature reactor and is one of six concepts selected in 2002 by a group of countries who joined together to form the Generation IV International Forum.
The Generation IV Systems selected in 2002 are:
Very-High-Temperature Reactor (VHTR): a graphite-moderated, helium-cooled reactor with a once-through uranium fuel cycle
Supercritical-Water-Cooled Reactor (SCWR): a high-temperature, high-pressure water-cooled reactor that operates above the thermodynamic critical point of water
Gas-Cooled Fast Reactor (GFR): features a fast-neutron-spectrum, helium-cooled reactor and closed fuel cycle
Lead-Cooled Fast Reactor (LFR): features a fast-spectrum lead of lead/bismuth eutectic liquid metal-cooled reactor and a closed fuel cycle for efficient conversion of fertile uranium and management of actinides
Sodium-Cooled Fast Reactor (SFR): features a fast-spectrum, sodium-cooled reactor and closed fuel cycle for efficient management of actinides and conversion of fertile uranium
Molten Salt Reactor (MSR): produces fission power in a circulating molten salt fuel mixture with an epithermal-spectrum reactor and a full actinide recycle fuel cycle