Parallel convection and E × B drifts in the TCV snowflake divertor and their effects on target heat-fluxes

Author:

Tsui C.K.ORCID,Boedo J.A.,Galassi D.ORCID,Loizu J.,Maurizio R.ORCID,Reimerdes H.ORCID,Duval B.P.,Février O.ORCID,Spolaore M.,Wensing M.ORCID,the TCV Team ,the Eurofusion MST1 Team

Abstract

Abstract Parallel convection and E × B drifts act together to redistribute heat between the strike-points in the low field side snowflake minus (LFS SF−). The cumulative heat convection from both mechanisms is enhanced near the secondary X-point and is shown to dominate over heat conduction, partly explaining why the LFS SF− distributes power more evenly than the single null (SN) or other snowflake (SF) configurations. Pressure profiles at the entrance of the divertor are strongly affected by the position of the secondary X-point and magnetic field direction indicating the importance of E × B drifts. Pressure drops of up to 50% appear between the outer-midplane (OMP) and the divertor entrance enhancing the role of parallel heat convection. The electron temperature and density profiles and the radial turbulent fluxes measured at the OMP are largely unaffected by the changes in divertor geometry, even on flux surfaces where the connection length is infinite.

Funder

US Department of Energy

H2020 Euratom

Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung

Publisher

IOP Publishing

Subject

Condensed Matter Physics,Nuclear and High Energy Physics

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