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1 ASTRA simulations of ITER long pulse scenarios V. Leonov ASTRA simulations of ITER long pulse scenarios V. Leonov Kurchatov Institute, Moscow, Russia.

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Presentation on theme: "1 ASTRA simulations of ITER long pulse scenarios V. Leonov ASTRA simulations of ITER long pulse scenarios V. Leonov Kurchatov Institute, Moscow, Russia."— Presentation transcript:

1 1 ASTRA simulations of ITER long pulse scenarios V. Leonov ASTRA simulations of ITER long pulse scenarios V. Leonov Kurchatov Institute, Moscow, Russia 7th Integrated Operation Scenarios Topical Group Meeting Kyoto, Japan, 18-21 October 2011 N ATIONAL R E S E A R C H CENTRE “Kurchatov institute” NRC KI INSTITUTE OF TOKAMAK PHYSICS

2 2 NATIONAL RESEARCH CENTRE «KURCHATOV INSTITUTE» INSTITUTE OF TOKAMAK PHYSICS Motivation Motivation The work have been done in the modeling activity IOS-JA9 which includes: to find the operational space for long pulse operation to obtain the optimal parameters for this operation. (A. Polevoi - IO) Phase I (A. Polevoi) Assessment of operational space (OS) (I p, n, etc.) for long-pulse operation by 1.5D modelling (0) Start from ITER inductive baseline scenario (Ip=15 MA, Pfus =500 MW, Q = 10,  t FT =400 s) (1) Keeping the same input and assumptions as for 500 MW baseline scenario with basic set of CD: 16.5 MW on- + 16.5 MW off-axis NBCD+ 20 MW ECCD --- Density scan for each of the models Phase II (A. Polevoi) Sensitivity studies for modelling assumptions (pedestal, Zeff, n(0)/, etc) In this presentation: Sensitivity to high-Z impurity contamination (W, Ar) V. Leonov 7 th IOS TG Meeting 18-21 Oct. 2011, Kyoto, Japan

3 3 RUSSIAN RESEARCH CENTRE «KURCHATOV INSTITUTE» INSTITUTE OF TOKAMAK PHYSICS V. Leonov 7 th IOS TG Meeting 18-21 Oct. 2011, Kyoto, Japan Simulations have been carried out with the ASTRA transport code with fixed boundary equilibrium - empirical scaling-based plasma transport model - in the pedestal region (  N > 0.94) transport coefficients decrease to  iNC level - He pumping speed was selected to keep  He /  E = 3 at 15 MA - Boundary conditions: T es = 0.2keV, n es = 0.3, - impuririties: 1) prescribed impurity density profiles ~ n e profile + radiation (in the 1) prescribed impurity density profiles ~ n e profile + radiation (in the coronal approximation) coronal approximation) 2) simulation of impurity ionization state, transport (including NC 2) simulation of impurity ionization state, transport (including NC by NCLASS code) and radiation by ZIMPUR impurity code by NCLASS code) and radiation by ZIMPUR impurity code (boundary impurity flux was selected to produce necessary impurity contamination) - Flat-top length:  t FT =  [Vs] / U res [V] = (240-14*I p ) / U res; U res = P OH /I P Fl =0.8*Pfus*  t Fl =0.8*Pfus*  t FT

4 44 NATIONAL RESEARCH CENTRE «KURCHATOV INSTITUTE» Plasma current – density scan for long pulse operation Plasma current – density scan for long pulse operation Start from 15MA 500MW scenario H&CD: 16.5MW on +16.5MW off-axis NBI + 20 MW ECR HH = 1 n Ar / n e =0.12% n Be / n e =2.0% -- -- at I p =10MA, n e ~5 10 19 m -3  t ~ 1 hour, total Fl as in 15MA scenario (small power intensity) INSTITUTE OF TOKAMAK PHYSICS V. Leonov 7 th IOS TG Meeting 18-21 Oct. 2011, Kyoto, Japan

5 5 NATIONAL RESEARCH CENTRE «KURCHATOV INSTITUTE» Sensitivity study (performance dependence on W contamination) ASTRA + ZIMPUR ASTRA + ZIMPUR n Ar = 0. n Ar = 0. n Be / n e = 2.0% (by boundary flux) n Be / n e = 2.0% (by boundary flux) HH = 1.05 HH = 1.05 2 limits : 2 limits : 1 – boundary of reference parameters (Q ~ 5;  t ~ 1000s) parameters (Q ~ 5;  t ~ 1000s) at n W / n e ~ 0.002% at n W / n e ~ 0.002% 2 – more strong limit (danger of H  L-mode transition) at n W / n e > 0.0027- 0.003% at n W / n e > 0.0027- 0.003% INSTITUTE OF TOKAMAK PHYSICS V. Leonov 7 th IOS TG Meeting 18-21 Oct. 2011, Kyoto, Japan

6 66 NATIONAL RESEARCH CENTRE «KURCHATOV INSTITUTE» Sensitivity study (performance dependence on Ar contamination) n W = 0. n W = 0. n Be / n e = 2.0% (by boundary flux) n Be / n e = 2.0% (by boundary flux) HH = 1.05 HH = 1.05 2 limits : 2 limits : 1 – boundary of reference parameters (Q ~ 5;  t ~ 1000s) parameters (Q ~ 5;  t ~ 1000s) at n Ar / n e ~ 0.12% at n Ar / n e ~ 0.12% 2 – more strong limit (danger of H  L mode transition) at n Ar / n e > 0.2% at n Ar / n e > 0.2% -- narrow n Ar region to control P rad INSTITUTE OF TOKAMAK PHYSICS V. Leonov 7 th IOS TG Meeting 18-21 Oct. 2011, Kyoto, Japan

7 7 RUSSIAN RESEARCH CENTRE «KURCHATOV INSTITUTE» Summary and future work Results of the plasma current-density scan (starting from the basic inductive scenario) for comparison with other models and codes are presented -- work in progress and will be continued. Investigation of impurity influence to hybrid scenario performance shows high sensitivity to high-Z impurity (W, Ar) contamination (narrow operation region) -- work will be continued for other impurities (Be,C,Ne) and discharge parameters. OS and sensitivity analysis for SS scenarios will be started also. INSTITUTE OF TOKAMAK PHYSICS V. Leonov 7 th IOS TG Meeting 18-21 Oct. 2011, Kyoto, Japan

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