Additional: 	ITER reference inductive scenario-2

Analysis codes:	ASTRA 5.2 generated code with SPIDER equilibrium solver

Assumption:
	1D transport equations for current density (Hirshman conductivity, Bootstrap by Sauter), 
	helium, electron density and temperature, ion temperature transport and toroidal momentum transport.  

Core transport 	
 	Parabolic heat and particle diffusivity ~ 1+3*x**2 normalized to achieve HHy2,98 = 1, De/DHe/CHIE = 1, CHIE/CHII=2;
	Helium 
		PRETOR-like helium pumping to fit tauHe* = 5 tauE
Impurities 
 	nBe/ne = 2% nAr/ne = 0.12%
Pedestal 
 	location at 0.95 of the poloidal flux, Transport De = DHe = CHIE = CHII = CHII,neoclassical
Boundary conditions
 	location at the separatix, PRETOR-like boundary conditions,
ST mixinq 
	rmix = 1.4 r(q=1) of plasma density, energy and current   
Heating	 PRETOR-like i.e. 
	NBI  33 MW single off-axis pencil beam
	ICRH 7 MW parabolic profile with central deposition 50/50 distribution to electrons and ions
Contact person:			A.R.Polevoi , ITER Organization, Alexei.Polevoi@iter.org
Date of analysis: 	23-NOV-2007
Date of shot:  		03-DEC-2001
Institution: 		ITER Organization
Publication:		Polevoi A.R. et al, ITER Confinement and Stability Modelling, J. Plasma Fusion Res. SERIES, Vol. 5 (2002) 8287 
Pulse number:	1	0020201
Run number: 		1
Shot description:	Inductive scenario with Ip = 15 MA. The simulation was carried out to reproduce 
			with ASTRA reference ITER scenario, developed with the PRETOR-code for similar assumptions
			TAUTOT is missed because the ITER definition is defferent from the DB definition 
			TAUE ITER = WTH/(PLTH + PFUSION/5 - PRAD + PLINE*2/3)
Tokamak: 		ITER