Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
6744187 | Fusion Engineering and Design | 2017 | 6 Pages |
Abstract
In a first step, requirements for actuators on plasma core density were elaborated. Related modelling activities indicated that only sufficiently deep fuel deposition can achieve target operational parameters. Hence, suitable techniques had to be identified and evaluated with respect to their availability and capability. Several techniques for pellet injection have been benchmarked in view of the defined requirements. Finally, cryogenic pellet injection was chosen as the main actuator on plasma core density. From further modelling activities, assuming for the pellet mass the ITER reference value, required launching speeds were derived, with respect to different injection geometries. Gas puffing and the respective technical system are necessary for pre-fill, ramp-up and plasma confinement enhancement. The ITER gas injection system (GIS) is assessed in view of suitability for DEMO. The piping system and the manifold concept can be adopted. The Gas Valve Box (GVB) is considered not to be an optimum solution for DEMO. Instead of this GVB, a pressure based RUN/VENT flow regulation and injection system is proposed in order to meet DEMO requirements. The principle of this system is described as well as some considerations about injection locations; further orienting gas flux numbers are provided.
Keywords
Related Topics
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Energy Engineering and Power Technology
Authors
B. Ploeckl, Chr. Day, A. Frattolillo, Y. Igitkhanov, P.T. Lang, B. Pégourié, H. Zohm,