Search results for "stellarator"

showing 4 items of 14 documents

Overview of first Wendelstein 7-X high-performance operation

2019

Abstract The optimized superconducting stellarator device Wendelstein 7-X (with major radius , minor radius , and plasma volume) restarted operation after the assembly of a graphite heat shield and 10 inertially cooled island divertor modules. This paper reports on the results from the first high-performance plasma operation. Glow discharge conditioning and ECRH conditioning discharges in helium turned out to be important for density and edge radiation control. Plasma densities of with central electron temperatures were routinely achieved with hydrogen gas fueling, frequently terminated by a radiative collapse. In a first stage, plasma densities up to were reached with hydrogen pellet injec…

TechnologyCONFINEMENT01 natural sciencesimpurities010305 fluids & plasmaslaw.inventionECR heatingDivertorDENSITY LIMITlawData_FILESGeneralLiterature_REFERENCE(e.g.dictionariesencyclopediasglossaries)004 Datenverarbeitung; InformatikPhysicsGlow dischargeDivertorCondensed Matter PhysicsContent (measure theory)ComputingMethodologies_DOCUMENTANDTEXTPROCESSINGElectron temperatureAtomic physicsddc:620StellaratorImpuritiesNuclear and High Energy PhysicsTechnology and Engineeringplasma performancechemistry.chemical_elementAtmospheric-pressure plasmaPHYSICSstellaratorPhysics::Plasma PhysicsNBI heating0103 physical sciencesdivertor010306 general physicsHeliumStellaratorPlasma performanceturbulenceFísicaW7-XTurbulenceTheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGESchemistryddc:004ddc:600Energy (signal processing)SYSTEMNuclear Fusion
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Structural assessment of a whole toroidal sector of the HELIAS 5-B breeding blanket

2021

Abstract The European roadmap for the realization of fusion energy considers the stellarator line as a possible long-term alternative to a tokamak DEMO. In this context, from the plasma physics standpoint, the most promising option is a five-field period power plant called HELIcal-axis Advanced Stellarator (HELIAS) 5-B. In order to allow the electricity production, the HELIAS 5-B reactor must be endowed with a breeding blanket (BB). Hence, in this paper, the advancements in the HELIAS 5-B BB design are reported. In particular, the structural assessment of a whole BB period, extending along toroidal direction for 72 °, is depicted. A geometric configuration encompassing dummy BB segments has…

TechnologyTokamakHeliasNuclear engineeringFEM analysisContext (language use)Blanket01 natural sciences010305 fluids & plasmaslaw.inventionThermomechanicsHELIASlaw0103 physical sciencesGeneral Materials Science010306 general physicsSettore ING-IND/19 - Impianti NucleariCivil and Structural EngineeringMathematicsStellaratorToroidbiologyMechanical EngineeringFusion powerbiology.organism_classificationFinite element methodNuclear Energy and EngineeringBreeding blanketddc:600StellaratorFusion Engineering and Design
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Preliminary structural assessment of the HELIAS 5-B breeding blanket

2019

Abstract The European Roadmap to the realisation of fusion energy, carried out by the EUROfusion consortium, considers the stellarator concept as a possible long-term alternative to a tokamak fusion power plant. To this purpose a pivotal issue is the design of a HELIcal-axis Advanced Stellarator (HELIAS) machine equipped with a tritium Breeding Blanket (BB), considering the achievements and the design experience acquired in the pre-conceptual design phase of the tokamak DEMO BB. Therefore, within the framework of EUROfusion Work Package S2 R&D activity, a research campaign has been launched at KIT. The scope of the research has been the determination of a preliminary BB segmentation scheme …

TechnologyWork packageTokamakPower stationbiologyHeliasComputer scienceMechanical EngineeringNuclear engineeringBlanketFusion powerbiology.organism_classification7. Clean energy01 natural sciencesFinite element method010305 fluids & plasmaslaw.inventionNuclear Energy and Engineeringlaw0103 physical sciencesGeneral Materials Science010306 general physicsddc:600StellaratorCivil and Structural EngineeringFusion Engineering and Design
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Confirmation of the topology of the Wendelstein 7-X magnetic field to better than 1:100,000

2016

Fusion energy research has in the past 40 years focused primarily on the tokamak concept, but recent advances in plasma theory and computational power have led to renewed interest in stellarators. The largest and most sophisticated stellarator in the world, Wendelstein 7-X (W7-X), has just started operation, with the aim to show that the earlier weaknesses of this concept have been addressed successfully, and that the intrinsic advantages of the concept persist, also at plasma parameters approaching those of a future fusion power plant. Here we show the first physics results, obtained before plasma operation: that the carefully tailored topology of nested magnetic surfaces needed for good c…

TokamakPlasma parametersScienceGeneral Physics and AstronomyTopology (electrical circuits)Topology7. Clean energy01 natural sciencesArticleGeneral Biochemistry Genetics and Molecular Biology010305 fluids & plasmaslaw.inventionlaw0103 physical sciences010306 general physicsPhysicsFusion Wendelstein7-X StellaratorMultidisciplinaryta114QGeneral ChemistryPlasmaFusion powerMagnetic fieldErratumWendelstein 7-XStellarator
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