S. Jachmich (slide 1) Vessel Conditioning SL-Training, Nov 2010 Vessel conditioning Stefan Jachmich SL-Training 2010
S. Jachmich (slide 2) Vessel Conditioning SL-Training, Nov 2010Outline Vacuum condition Torus pumping Vessel baking Glow discharge cleaning Beryllium evaporation Residual gas analysis
S. Jachmich (slide 3) Vessel Conditioning SL-Training, Nov 2010 Vessel conditioning Good quality of vaccuum and surface condition are essential for successful repeatable plasma operation Sequence to recondition vessel after shutdown: Pump-down of vessel Vessel baking Glow Discharge Cleaning Be-evaporation Plasma conditioning
S. Jachmich (slide 4) Vessel Conditioning SL-Training, Nov 2010 Pumping system Turbo pumps compress gas molecules into fore-vaccuum chamber Four turbomolecular pumps (~2000 l s -1 ) connected to the torus via two pumping chambers (Octant 1&5) ( Xmimic: “vc/tps/tt01-2, “vc/tps/tt01-2 ) Sufficient to get below mbar and to operate All pumped gases go through the active gas handling system (AGHS)
S. Jachmich (slide 5) Vessel Conditioning SL-Training, Nov 2010Cryopumps Cryopumps reduce chamber pressure by condensing gas at low temperature Process: Cryocondensation, Cryosorption, Cryotrapping Six large cryopumps: Pumped Divertor (PD) 2x, NIB4, NIB8 and LH All cryo-pumps except PDs can be sealed off from torus Achievable vaccuum depends on temperature of trapping panels Three temperature states: (1) Warm, (2) LN 2 (~77K), (3) LHe (~4.7K) LN 2 : absorbs water vapour and some CO LHe (supercritical): pumps D 2 and Hydrocarbons Ar-frosting: pumps He by cryotrapping Cryopumps have a limited capacity and must be regenerated regularly (risk of spontaneous regeneration for experiments with large gas loads!)
S. Jachmich (slide 6) Vessel Conditioning SL-Training, Nov 2010PD-cryopump If regeneration is required by your programme: check machine configuration table, check with EIC/SL of previous and next session Operation without LHe is possible, however: density control more difficult higher LH-threshold landing of pulse has to be more careful Symptoms of possible problems with PD: slow pump down after pulse impurity spikes during pump down oscillations of torus base pressure between pulses Status of PDs: ( Xmimic: “vc/crs/oct15”, Xpad: cgrt/VC/slow/.../.../VC/C-PD1-HEO<TMP {He-temperature of PD1}) Inventory of PDs (JOI7.5): ( Xmimic: “vc/inv/inventory)
S. Jachmich (slide 7) Vessel Conditioning SL-Training, Nov 2010Baking Increases outgasing rate of impurities Increase GDC-effectiveness Faster recovery from discharges Improves density control and pulse termination At JET: thermal expansion of vessel necessary to free from MVP packing blocks Operation temperature typically 200 o C Baking temperature: 320 o C, dT/dt ~ +/- 10 o C High baking temperature increases outgassing and diffusion
S. Jachmich (slide 8) Vessel Conditioning SL-Training, Nov 2010 Glow discharge cleaning (GDC) Helps to release impurities from wall materials Four electrodes in Octants 2, 4, 6, and 8 Working gases: D 2, He at mbar PD has to be warmed up to LN 2 Ions accelerated to the walls of the vessel Two cleaning processes: (1) direct chemical reactions, (2) ion induced desoprtion Removed products are pumped out of the vessel Fraction of the working gas will implanted into the wall => gas will be released into vessels Allow for outgassing after GDC
S. Jachmich (slide 9) Vessel Conditioning SL-Training, Nov 2010 Deuterium or Helium Glow? Hydrogen (H2, D2) GDC is primarily reactive: Released impurities: H 2 O, CO, CH x, CD x (e.g. Methane) Large quantities of hydrogen can get stored in the wall and released during pulses => difficult density control Helium GDC works mainly by ion induced desoprtion: Released impurities: H 2 O, CO, CO 2, H 2, D 2 Possible plasma contamination following a He-glow Deuterium GDC is often followed by a Helium GDC Needed before or after your experiment: obtain JPEC/Coord-approval + raise paperwork If required after unplanned events (disruption): check with CoordCM, Vacuum, Cryo
S. Jachmich (slide 10) Vessel Conditioning SL-Training, Nov 2010Be-evaporation Berylium is an oxygen getter, forms a stable oxide => reduction of Oxygen in plasma Does not form stable compounds with deuterium => reduction of Deuterium wall loading Four evaporator heads in Oct. 1,3,5,7 Typically 2 heads for 2 hrs (incl. heat up to 900 o C) Good vacuum conditions for Be-evaporation required (low H 2 O and N 2 part. press.) (JOI 7.1 Xmimic: “vc/codas/sys ) Needed before or after your experiment: obtain JPEC/Coord-approval + raise paperwork
S. Jachmich (slide 11) Vessel Conditioning SL-Training, Nov 2010 Residual gas analysis (RGA) Quadrupole mass spectrometers installed in pumping chamber Primarily to identify air or water leaks and to assess oxygen removal rates of D 2 -GDC Complicated cracking pattern: List of masses for molecules POG Handbook RGA-list Xpad: local_vc/spectra/qs1/... (in [A]); To calibrate: p torus / ∑(largest peaks) (usually masses 2-4) Time trace for mass YY: cgrt/VC/slow/.../VC/MS1-TREND<MPX:YY If peak mass 14 (N x ) and mass 16 (O x ) are similar then probably air leak
S. Jachmich (slide 12) Vessel Conditioning SL-Training, Nov 2010 Vessel condition for operation In the morning at start of operational day: Assess torus condition Torus pressure <3*10 -6 mbar ( Xpad: open “EIC/cgrt-pennings-today”) ( Xmimic: “vc/codas/sys”) Vessel condition is categorized by partial pressure of water, Carbonoxides, Nitrogen Residual gas analyser, RGA: Xpad: local_vc/spectra/qs1/... Refer to JOI 7.2 for details
S. Jachmich (slide 13) Vessel Conditioning SL-Training, Nov 2010 Vessel deconditioning Some experiments implicate deconditioning of the machine (e.g. disruption studies, impurity seeding, runaways etc.) Check JOI 1.3 and agree on re-conditioning procedure using form in appendix Use recovery pulse to get back in operation if struggeling with breakdown Cleaning pulses: in principle plasma conditioning mostly effective using long pulses with high ion flux and energy sweep over relevant limiter and divertor areas Guidance note on conditioning procedure: POG News&Notes