TJ-II:Vacuum system: Difference between revisions

Line 2: Line 2:


The all-metal [[TJ-II]] vacuum vessel has a helical geometry and has 96 [[TJ-II:Ports|ports]].  
The all-metal [[TJ-II]] vacuum vessel has a helical geometry and has 96 [[TJ-II:Ports|ports]].  
<ref>[http://dx.doi.org/10.1109/FUSION.1991.218780 J. Botija and M. Blaumoser, '' Vacuum vessel design for the TJ-II device'', 14<sup>th</sup> IEEE/NPSS Symposium on Fusion Engineering '''2''' (1991) 992-995]</ref>
The vacuum vessel is made of non-magnetic steel (304 LN) with a thickness of 10 mm.  
The vacuum vessel is made of non-magnetic steel (304 LN) with a thickness of 10 mm.  
The CC/HX coil is outside of the vacuum vessel thanks to a helical groove built into the vessel.  
The CC/HX coil is outside of the vacuum vessel thanks to a helical groove built into the vessel.  
This groove has a wall thickness of 7 mm for clearance reasons.
This groove has a wall thickness of 7 mm for clearance reasons.
The groove is protected along the entire toroidal circumference against damage due to the bean-shaped plasma by 3 mm stainless steel sheets for low and medium power operation and graphite tiles for high power operation. Furthermore, the vacuum vessel is protected on the areas where the [[TJ-II:Neutral Beam Injection|neutral beams]] deposit a residual shine-through heat flux.  
The groove is protected along the entire toroidal circumference against damage due to the bean-shaped plasma by 3 mm stainless steel sheets for low and medium power operation and graphite tiles for high power operation. Furthermore, the vacuum vessel is protected on the areas where the [[TJ-II:Neutral Beam Injection|neutral beams]] deposit a residual shine-through heat flux.


== Vacuum system ==
== Vacuum system ==