D. Marzullo scite author profile

In the European fusion roadmap, reliable power handling has been defined as one of the most criticalchallenges for realizing a commercially viable fusion power. In this context, the divertor is the key in-vessel component, as it is responsible for power exhaust and impurity removal for which divertor targetis subjected to very high heat flux loads. To this end, an integrated R&D project was launched in theEUROfusion Consortium in order to deliver a holistic conceptual design solution together with the coretechnologies for the entire divertor system of a DEMO reactor. The work package ‘Divertor’ consistsof two project areas: ‘Cassette design and integration’ and ‘Target development’. The essential missionof the project is to develop and verify advanced design concepts and the required technologies for adivertor system being capable of meeting the physical and system requirements defined for the next-generation European DEMO reactor. In this contribution, a brief overview is presented of the works fromthe first project year (2014). Focus is put on the loads specification, design boundary conditions, materialsrequirements, design approaches, and R&D strategy. Initial ideas and first estimates are presented

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Assessment of alternative divertor configurations as an exhaust solution for DEMO

Reimerdes

Ambrosino

Innocente³

et al. 2020

Nucl. Fusion

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Plasma exhaust has been identified as a major challenge towards the realisation of magnetic confinement fusion. To mitigate the risk that the single null divertor (SND) with a high radiation fraction in the scrape-of-layer (SOL) adopted for ITER will not extrapolate to a DEMO reactor, the EUROfusion consortium is assessing potential benefits and engineering challenges of alternative divertor configurations. Alternative configurations that could be readily adopted in a DEMO design include the X divertor (XD), the Super-X divertor (SXD), the Snowflake divertor (SFD) and the double null divertor (DND). The flux flaring towards the divertor target of the XD is limited by the minimum grazing angle at the target set by gaps and misalignments. The characteristic increase of the target radius in the SXD is a trade-off with the increased TF coil volume, but, ultimately, also limited by forces onto coils. Engineering constraints also limit XD and SXD characteristics to the outer divertor leg with a solution for the inner leg requiring up-down symmetric configurations. Capital cost increases with respect to a SND configuration are largest for SXD and SFD, which require both significantly more poloidal field coil conductors and in the case of the SXD also more toroidal field coil conductors. Boundary models with increasing degrees of complexity have been used to predict the beneficial effect of the alternative configurations on exhaust performance. While all alternative configurations should decrease the power that must be radiated in the outer divertor, only the DND and possibly the SFD also ease the radiation requirements in the inner divertor.

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Progress in the initial design activities for the European DEMO divertor: Subproject “Cassette”

You

Mazzone

Bachmann³

et al. 2017

Fusion Engineering and Design

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Preliminary analysis of alternative divertors for DEMO

Militello

Aho-Mantila

Ambrosino

et al. 2021

Nuclear Materials and Energy

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Divertor of the European DEMO: Engineering and technologies for power exhaust

You¹,

Mazzone²,

Visca³

et al. 2022

Fusion Engineering and Design

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D. Marzullo

Conceptual design studies for the European DEMO divertor: Rationale and first results

Assessment of alternative divertor configurations as an exhaust solution for DEMO

Progress in the initial design activities for the European DEMO divertor: Subproject “Cassette”

Preliminary analysis of alternative divertors for DEMO

Divertor of the European DEMO: Engineering and technologies for power exhaust

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