Neutron moderator The neutron moderator is graphite, although whether the reactor core is configured in graphite prismatic blocks or in graphite pebbles depends on the HTGR design.
Nuclear fuel The fuel used in HTGRs is coated fuel particles, such as
TRISO fuel particles. Coated fuel particles have fuel kernels, usually made of
uranium dioxide, however,
uranium carbide or uranium oxycarbide are also possibilities. Uranium oxycarbide combines uranium carbide with the uranium dioxide to reduce the oxygen stoichiometry. Less oxygen may lower the internal pressure in the TRISO particles caused by the formation of carbon monoxide, due to the oxidization of the porous carbon layer in the particle. The TRISO particles are either dispersed in a pebble for the pebble bed design or molded into compacts/rods that are then inserted into the hexagonal graphite blocks. The QUADRISO fuel concept conceived at
Argonne National Laboratory has been used to better manage the excess of reactivity.
Coolant Helium has been the coolant used in all HTGRs to date. Helium is an
inert gas, so it will generally not chemically react with any material. Additionally, exposing helium to neutron radiation does not make it radioactive, unlike most other possible coolants.
Control In the prismatic designs,
control rods are inserted in holes cut in the graphite blocks that make up the core. The VHTR will be controlled like current
PBMR designs if it utilizes a pebble bed core, the control rods will be inserted in the surrounding graphite
reflector. Control can also be attained by adding pebbles containing
neutron absorbers. == Safety features and other benefits ==