Publication | Open Access
Final integration, commissioning and start of the Wendelstein 7-X stellarator operation
47
Citations
15
References
2017
Year
Limiter ConfigurationIntegrated Plasma OperationEngineeringFusion PowerPlasma PhysicsMagnetic Confinement FusionControlled Nuclear FusionDense PlasmaPlasma ConfinementLaser FusionPhysicsReactor PotentialFusion EnergySynchrotron RadiationNuclear AstrophysicsAstrophysicsFinal IntegrationNatural SciencesInertial Confinement FusionFusion System Design
W7‑X seeks to demonstrate integrated plasma operation, a capability not yet achieved and the device’s major scientific goal, pursued through a staged approach. The study aims to show that the optimized stellarator can deliver high heating power and high confinement in steady‑state operation. The first operation phase (OP 1.1, Dec 2015–Mar 2016) employed a limiter configuration, and the paper discusses its preparation and lessons learned during commissioning. Physics results from OP 1.1 are reported elsewhere, indicating that this work focuses on operational preparation rather than detailed physics outcomes. Fusion 57, 102020.
The main objective of the Wendelstein 7-X (W7-X) stellarator is to demonstrate the integrated reactor potential of the optimized stellarator line. An important element of this mission is the achievement of high heating-power and high confinement in steady-state operation. Such an integrated plasma operation has not yet been demonstrated and represents the major scientific goal of W7-X. The way towards this goal is staged. In the first phase, called OP 1.1, December 2015-March 2016, a limiter configuration was used. In this paper, the preparation of the first operation phase as well as lessons learned during the first commissioning and the operation phase are discussed, while the physics results from OP 1.1 are reported elsewhere (Wolf et al 2017 Nucl. Fusion 57 102020).
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