iter_10010100_com.dat = comments file for ITER Profile Database submission

  Tokamak: ITER

  Pulse number: 10010100
    Scenario = 2 (ELMy H-mode), shot = 001 (Baseline), modeler = 01 (Budny), try = 00

  Shot description,purpose of the shot: 
     simulation of standard ELMy H-mode in ITER

  Contact persons: Robert Budny

  Institution:  PPPL

  Date of shot: future

  Special times of interest
    137.0 (50MW He3-minority ICRH and 33MW NNBI, between sawtooth crashes)
    197.0 (33MW NNBI, between sawtooth crashes)

  Analysis codes: TRANSP

  TRANSP run number: 03000A52

  Date of analysis: 20080318 by Robert Budny (budny@princeton.edu)

 Assumptions made for analysis:

  Plasma boundary grows in time from circular up/down asymmetric, reaching 
  stady state by 140s
  Plasma current is ramped up linearly in time to steady 15MA at 125s
  B_vac held nearly stady at 5.28T
  n_e with a near-flat profile ramped to steady state 1.02e20/m3 at 140s
  T_e and T_i with peaked profiles ramped up to 23.5 and 19.5 keV
  respectively at 110s
  D-NNBI is co-directed slightly below axis with a tengency radius of 5.3m
  The injection energy is 1MeV with 16.5MW starting at 100s, increased to
  33 MW at 180s, then terminated at 250s
  Excited-states ionization of the beam neutrals is modeled
  He3-minority ICRH at 53MHz ramped up starting at 50s to 50MW at 90s,
  then terminated at 150s
  Modeled sawteeth with Kadomstev mixing at 0.3Hz
  The D species is NM1 and the T species is NM2.
  Neither the RF minority or ash densities are in the 0D and 2D files.
  Z_eff with near flat profile around value of 1.54
  The impurity is assumed to have NM3Z=5 and NM3A=10
  P_rad peaked near separatrix, increasing to 25MW by 150s
  He4 ash accumulation simulated assuming explicit diffusivity = 0.8 m2/s,
  inward pinch = 0 m/s, and wall/divertor recycling coefficient = 0.2

 Additional information:

  This simulation of ITER pulse 10010100 was based on a standard simulation
  with a target fusion yield of 400MW in D.Campbell's paper (listed below)

  In the file iter_10010100_0d.dat data is given at 200 secs. 

  Publications:  
    1) For a discussion of a standard ITER ELMy H-mode shot see
       D.Campbell, Phys. of Plasmas <8> (2001) 2041
    2) For an analysis of a similar ITER shot and comparisons with the highest
       DT fusion power TFTR and JET shots as well as a IGNITOR and FIRE simulation
       see
       R.V.Budny, "Fusion alpha parameters in DT plasmas with high DT fusion
       rates", Nuclear Fusion <42> (2002) 1382.
    3) A poster on ITER simulations was presented at the IAEA Technical meeting on
       Energetic Particles in Magnetic Confinement, Oct 6-8, 2003