gptkbp:instanceOf
|
experimental fusion reactor
|
gptkbp:constructionStartYear
|
2010
|
gptkbp:coolingSystem
|
cryogenic
|
gptkbp:designedBy
|
gptkb:ITER_Organization
|
gptkbp:designedFor
|
nuclear fusion research
|
gptkbp:designedToConsume
|
50 MW input power
|
gptkbp:designedToOperate
|
at 150 million degrees Celsius
|
gptkbp:designedToProduce
|
500 MW thermal power
|
gptkbp:designedToTest
|
tritium breeding
|
gptkbp:divertorMaterial
|
tungsten
|
gptkbp:firstPlasma
|
2025
|
gptkbp:firstWallMaterial
|
beryllium
|
gptkbp:fuelType
|
deuterium-tritium
|
gptkbp:fundedBy
|
gptkb:China
gptkb:European_Union
gptkb:India
gptkb:Japan
gptkb:Russia
gptkb:South_Korea
gptkb:United_States
|
gptkbp:goal
|
demonstrate feasibility of fusion power
|
https://www.w3.org/2000/01/rdf-schema#label
|
ITER Tokamak
|
gptkbp:locatedIn
|
gptkb:Cadarache,_France
|
gptkbp:magneticConfinement
|
tokamak
|
gptkbp:majorRadius
|
2 meters
6.2 meters
|
gptkbp:numberOfCentralSolenoidModules
|
6
|
gptkbp:numberOfPoloidalFieldCoils
|
6
|
gptkbp:numberOfToroidalFieldCoils
|
18
|
gptkbp:partOf
|
gptkb:ITER_project
|
gptkbp:plasmaVolume
|
840 cubic meters
|
gptkbp:shape
|
toroidal
|
gptkbp:uses
|
superconducting magnets
|
gptkbp:vacuumVesselWeight
|
5,200 tonnes
|
gptkbp:website
|
https://www.iter.org/
|
gptkbp:bfsParent
|
gptkb:ITER_collaboration
|
gptkbp:bfsLayer
|
7
|