jet_52022_com.dat = comments file for ITPA WDB Profile Database submission Tokamak: JET Pulse number: 52022 Shot description, purpose of the shot: ELMy H-mode with high confinement and density Contact persons: Robert Budny, Xavier Garbet Institution: EFDA-JET Date of shot: 20001010 Time of interest = 20.8s (60.8s in JET PPF time) Analysis codes: TRANSP and EFIT (for plasma boundary) Run number: 52022C10 Date of analysis: 20051103 TRANSP run by Robert Budny(budny@princeton.edu) This is a resubmission adding PRES Assumptions for analysis: Up/down asymmetric boundary given by EFIT. Ti, toroidal rotation, C, and Be density profiles from CX measurements during NBI between x (sqrt. normalized toroidal flux)>0.35) Ti extrapolated to Te for x < 0.35. There are no core CX measurements past x = 0.8, but there are edge (CXSE) measurements. These were used to extrapolate Ti to the edge. Z_eff profile input from CX data. Te and ne profiles from LIDAR measurements Radiation profile assumed to be flat. Sawteeth breaks from ECE measurements Additional information: Pulse 52022 was conducted under the Confinement Physics Task Force to investigate the influence of triangularity on confinement, pedestal, and SOL parameters. The plasma setup was similar to 52009, also released to the profile database, but had higher gas puffing (to a Greenwald fraction of 0.92), and was less steady. The upper and lower triangularities of the boundary were approximately 0.48-0.50 and 0.38-0.42. The elongation of the boundary was approximately 1.65-1.70 The plasma current was 2.5 MA and the toroidal field was 2.7 T. The auxilliary heating consisted of D-NBI ramped up to a flattop value of approximately 15.0 MW from 15 to 22 s in the TRANSP run (55-62 s in JET time). The ELMs were of Type I with a frequency of approximately 35-44 Hz. The sawteeth frequency was approximately 9 Hz during the NBI. The Greenwald fraction was above 90% for 20.6-21.6 sec. With similar plasmas during the same run, this pulse forms a density scan with various values of gas puffing. The TRANSP run gives a simulated W_dia about 17% lower than the measured value. The simulated neutron rate is about 10% higher than the measured values. The peak, 5.4E15/s, occurs early in the NBI phase. The direction of the toroidal field and plasma current were in the normal JET direction - clockwise viewed from above. All calculations have been done on a 80 zone radial grid rather than the normal 20 grid. Most quantities (energy, particle sources, currents etc) have been smoothed to suppress Monte-Carlo noise. In the 2d file D is stored in NM1, trace H in NM2 and trace T in NM3. The input C density is stored in NM4. In the file jet_52022_0d.dat data is given at 20.8 secs. XPLIM is from XLOC; SEPLIM is given by EFIT. DELTA is the average of the upper and lower triangularities. and not as defined in the standard list of variables. Publications: 1) For generat description of high density JET ELMy H-mode plasmas see G. Saibene, et al, "Improved performance of ELMy H-mode at high density by plasma shaping in JET", Plasma Physics Controlled Fusion <44> (2002) 1769-1799, 2) For a description of TRANSP analysis of JET ELMy H-mode plasmas see R.V. Budny, et al, "Local transport in Joint European Tokamak edge-localized, high confinement mode plasmas with H, D, DT, and T