Additional:	ITER reference long pulse scenario-4 with realistic self-consistent CD calculations

Analysis codes:	ASTRA 5.2 generated code with SPIDER equilibrium Solver, FRTC for LHCD, ORGAY for ECCD

Assumption:
      	1D transport equation for current density (Hirshman conductivity), 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 = 1.4, 
	De/DHe/CHIE = 1, CHIE/CHII=2;
	Impurities 
		nBe/ne = 2% nAr/ne = 0.2%
Pedestal 
	location at 0.95 of the poloidal flux, Transport De = DHe = CHIE = CHII = CHII,neoclassical
Boundary conditions 
	location at the separatix, B2Eirene-like boundary conditions,
ST mixinq 
	rmix = 1.4 r(q=1) of plasma density, energy and current   
Heating 
	NBI  16.5 MW on axis + 16.5 MW off axis with ITER design parameters
	ECRH+CD 20 MW, calculated with OGRAY 
	LHH+CD 20 MW, calculated with FRTC code
Contact person:		A.R.Polevoi , ITER Organization, Alexei.Polevoi@iter.org
Date of analysis: 	30-NOV-2007
Date of shot:	  	04-MAY-2007
Institution:	 	ITER Organization
Publication:		Polevoi A.R. et al, Assessment of Current Drive Efficiency and Synergetic Effect for 
			ECCD and LHCD and Possibility of Long Pulse Operation in ITER., (to be published in NF 2008)
Pulse number:		30040202
Run number:		1
Shot description:	Long pulse scenario with Ip = 9 MA. The simulation was carried out to reproduce the reference 
			ITER scenario-4 with realistic ECCD and LHCD and without the transport barrier
			Speed of toroidal rotation was cacculated in the following assumprtions
			1) Toque input from the NBI is calculated including the component to the trapped particles
			2) VROTM is calculated assuming CHIfi=CHIi
			3) VROT is calculated assuming TAUfi = TAUE
			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