Barbora Gulejová 1 of 10 PSI 2008 abstract 5/12/2007 SOLPS modelling of Type I ELMing H-mode on JET Barbora Gulejová, Richard Pitts, David Coster, Xavier.

Slides:

Advertisements

Similar presentations

Reunion Scientifique 05/04/2006 Centre de Recherches en Physique des Plasmas 1 of 12 Barbora Gulejova Some key results from SOL H-mode characterisation.

Advertisements

Barbora Gulejová 1 of 19 Centre de Recherches en Physique des Plasmas Swiss physical society 26/3/2008 SOLPS5 simulations of ELMing H-mode Barbora Gulejová.

Introduction to Plasma-Surface Interactions Lecture 6 Divertors.

Korean Modeling Effort : C2 Code J.M. Park NFRC/ORNL In collaboration with Sun Hee Kim, Ki Min Kim, Hyun-Sun Han, Sang Hee Hong Seoul National University.

17. April 2015 Mitglied der Helmholtz-Gemeinschaft Application of a multiscale transport model for magnetized plasmas in cylindrical configuration Workshop.

ASIPP HT-7 belt limiter Houyang Guo, Sizhen Zhu and Jiangang Li Investigation of EAST Divertor Asymmetry in Plasma Detachment & Target Power Loading Using.

ASIPP Characteristics of edge localized modes in the superconducting tokamak EAST M. Jiang Institute of Plasma Physics Chinese Academy of Sciences The.

Thermal Load Specifications from ITER C. Kessel ARIES Project Meeting, May 19, 2010 UCSD.

Barbora Gulejová 1 of 12 Centre de Recherches en Physique des Plasmas SPS Annual Meeting in Lausanne, 14/2/2006 SOLPS5 modelling of ELMing H-mode on TCV.

6th Japan Korea workshop July 2011, NIFS, Toki-city Japan Edge impurity transport study in stochastic layer of LHD and scrape-off layer of HL-2A.

SUGGESTED DIII-D RESEARCH FOCUS ON PEDESTAL/BOUNDARY PHYSICS Bill Stacey Georgia Tech Presented at DIII-D Planning Meeting

Exploring Capability to Calculate Heat Loads on Divertors and Walls T.K. Mau UC-San Diego ARIES Pathways Project Meeting September 6-7, 2007 Idaho Falls,

Centre de Recherches en Physique des Plasmas TF-E modellers meeting B. Gulejová6/5/ of 10 SOLPS5 simulations of Type I ELMing H-mode at JET Barbora.

Comparison of drift simulation with D,Chi different in div.legs.

Integrated Effects of Disruptions and ELMs on Divertor and Nearby Components Valeryi Sizyuk Ahmed Hassanein School of Nuclear Engineering Center for Materials.

Barbora Gulejová 1 of 18 Centre de Recherches en Physique des Plasmas First Thesis Committee 30/1/2007 Particle sources and radiation distributions in.

R. A. Pitts et al., O-8 18 th PSI, Toledo, Spain 27 May 2008 The Impact of large ELMs on JET Presented by R. A. Pitts CRPP-EPFL, Switzerland, Association.

Energy loss for grassy ELMs and effects of plasma rotation on the ELM characteristics in JT-60U N. Oyama 1), Y. Sakamoto 1), M. Takechi 1), A. Isayama.

Barbora Gulejová 1 of 2 EPS 2007 material 20/6/2007 Time-dependent modelling of ELMing H-mode at TCV with SOLPS Barbora Gulejová, Richard Pitts, Xavier.

H. D. Pacher 1, A. S. Kukushkin 2, G. W. Pacher 3, V. Kotov 4, G. Janeschitz 5, D. Reiter 4, D. Coster 6 1 INRS-EMT, Varennes, Canada; 2 ITER Organization,

A. HerrmannITPA - Toronto /19 Filaments in the SOL and their impact to the first wall EURATOM - IPP Association, Garching, Germany A. Herrmann,

10th ITPA meeting on SOL & divertor physics, Avila, Spain, Jan 7-10, 2008 Arne Kallenbach 1/15 Prediction of wall fluxes and implications for ITER limiters.

ITPA, DivSOL, May 2007: Coster et al Coster, Bonnin, Corrigan, Wiesen, Chankin, Zagorski, Owen, Rognlien, Kukushkin, Fundamenski, … With contributions.

Divertor/SOL contribution IEA/ITPA meeting Naka Nov. 23, 2003 Status and proposals of IEA-LT/ITPA collaboration Multi-machine Experiments Presented by.

Simulation Study on behaviors of a detachment front in a divertor plasma: roles of the cross-field transport Makoto Nakamura Prof. Y. Ogawa, S. Togo, M.

PIC simulations of the propagation of type-1 ELM-produced energetic particles on the SOL of JET D. Tskhakaya 1, *, A. Loarte 2, S. Kuhn 1, and W. Fundamenski.

Japanese Efforts on the Integrated Modeling - Part II : JAEA Contribution - T. Takizuka (JAEA) acknowledgments : T. Ozeki, N. Hayashi, N. Aiba, K. Shimizu,

1 Modeling of EAST Divertor S. Zhu Institute of Plasma Physics, Chinese Academy of Sciences.

D. Tskhakaya ADAC meeting, Cadarache /16 Molecular Data in Tokamak edge Modelling D. Tskhakaya Association EURATOM-ÖAW, University of Innsbruck,

Integrated Modeling and Simulations of ITER Burning Plasma Scenarios C. E. Kessel, R. V. Budny, K. Indireshkumar, D. Meade Princeton Plasma Physics Laboratory.

1 Development of integrated SOL/Divertor code and simulation study in JT-60U/JT-60SA tokamaks H. Kawashima, K. Shimizu, T. Takizuka Japan Atomic Energy.

V. A. Soukhanovskii NSTX Team XP Review 31 January 2006 Princeton, NJ Supported by Office of Science Divertor heat flux reduction and detachment in lower.

High  p experiments in JET and access to Type II/grassy ELMs G Saibene and JET TF S1 and TF S2 contributors Special thanks to to Drs Y Kamada and N Oyama.

Transport of deuterium - tritium neutrals in ITER divertor M. Z. Tokar and V.Kotov Plasma and neutral gas in ITER divertor will be mixed of deuterium and.

OPERATIONAL SCENARIO of KTM Dokuka V.N., Khayrutdinov R.R. TRINITI, Russia O u t l i n e Goal of the work The DINA code capabilities Formulation of the.

1 of 22A.V.Chankin & D.P.Coster, 18 th PSI Conference, Toledo, Spain, 29 May 2008 Comparison of 2D Models for the Plasma Edge with Experimental Measurements.

14 Oct. 2009, S. Masuzaki 1/18 Edge Heat Transport in the Helical Divertor Configuration in LHD S. Masuzaki, M. Kobayashi, T. Murase, T. Morisaki, N. Ohyabu,

1 Max-Planck-Institut für Plasmaphysik 10th ITPA meeting on SOL/Divertor Physics, 8/1/08, Avila ELM resolved measurements of W sputtering MPI für Plasmaphysik.

Simulation and Analysis of the Hybrid Operating Mode in ITER C. Kessel, R. Budny, and K. Indireshkumar Princeton Plasma Physics Laboratory Symposium On.

D. Tskhakaya et al. 1 (13) PSI 18, Toledo July 2008 Kinetic simulations of the parallel transport in the JET Scrape-off Layer D. Tskhakaya, R.

Introduction of 9th ITPA Meeting, Divertor & SOL and PEDESTAL Jiansheng Hu

Transfer of ITER SOLPS4.2 simulations to SOLPS5.1 X. Bonnin (CNRS-LIMHP), A. Kukushkin (ITER), D. Coster (IPP-Garching) ● ITER divertor and SOL have been.

1) Disruption heat loading 2) Progress on time-dependent modeling C. Kessel, PPPL ARIES Project Meeting, Bethesda, MD, 4/4/2011.

Edge-SOL Plasma Transport Simulation for the KSTAR

R. A. Pitts et al. 1 (12) IAEA, Chengdu Oct ELM transport in the JET scrape-off layer R. A. Pitts, P. Andrew, G. Arnoux, T.Eich, W. Fundamenski,

Edge characterization experiments in the National Spherical Torus Experiment V. A. Soukhanovskii and NSTX Research Team Session CO1 - NSTX ORAL session,

DIVERTOR INVESTIGATIONS ON NSTX-U LEADING TO FNSF Mike Kotschenreuther Brent Covele Swadesh Mahajan Prashant Valanju Jonathan Roeltgen Zhong-Ping Chen.

Comprehensive ITER Approach to Burn L. P. Ku, S. Jardin, C. Kessel, D. McCune Princeton Plasma Physics Laboratory SWIM Project Meeting Oct , 2007.

ERO code development A. Kirschner M. Airila, D. Borodin, S. Droste, C. Niehoff  The ERO code  ERO code management  Modelling of CH 4 puffing in ASDEX.

Integrated Simulation of ELM Energy Loss Determined by Pedestal MHD and SOL Transport N. Hayashi, T. Takizuka, T. Ozeki, N. Aiba, N. Oyama JAEA Naka TH/4-2.

045-05/rs PERSISTENT SURVEILLANCE FOR PIPELINE PROTECTION AND THREAT INTERDICTION Taming The Physics For Commercial Fusion Power Plants ARIES Team Meeting.

1 SIMULATION OF ANOMALOUS PINCH EFFECT ON IMPURITY ACCUMULATION IN ITER.

Role of thermal instabilities and anomalous transport in the density limit M.Z.Tokar, F.A.Kelly, Y.Liang, X.Loozen Institut für Plasmaphysik, Forschungszentrum.

18th International Spherical Torus Workshop, Princeton, November 2015 Magnetic Configurations  Three comparative configurations:  Standard Divertor (+QF)

V. A. Soukhanovskii Lawrence Livermore National Laboratory H. W. Kugel, R. Kaita, A. L. Roquemore Princeton Plasma Physics Laboratory NSTX Research Team.

ZHENG Guo-yao, FENG Kai-ming, SHENG Guang-zhao 1) Southwestern Institute of Physics, Chengdu Simulation of plasma parameters for HCSB-DEMO by 1.5D plasma.

ELM propagation and fluctuations characteristics in H- and L-mode SOL plasmas on JT-60U Nobuyuki Asakura 1) N.Ohno 2), H.Kawashima 1), H.Miyoshi 3), G.Matsunaga.

Fast response of the divertor plasma and PWI at ELMs in JT-60U 1. Temporal evolutions of electron temperature, density and carbon flux at ELMs (outer divertor)

Integrated Operation Scenarios ITPA NSTX-U Monday Physics Meeting, February 8, 2016 Yong-Su Na 1 Core Plasma Particle Transport Benchmark Activities in.

Page 1 Alberto Loarte- NSTX Research Forum st - 3 rd December 2009  ELM control by RMP is foreseen in ITER to suppress or reduce size of ELM energy.

Development and Assessment of “X-point limiter” Plasmas M. Bell, R. Maingi, K-C. Lee Coping with both steady-state and transient (ELM) heat loads is a.

Radiation divertor experiments in the HL-2A tokamak L.W. Yan, W.Y. Hong, M.X. Wang, J. Cheng, J. Qian, Y.D. Pan, Y. Zhou, W. Li, K.J. Zhao, Z. Cao, Q.W.

1 Estimating the upper wall loading in ITER Peter Stangeby with help from J Boedo 1, D Rudikov 1, A Leonard 1 and W Fundamenski 2 DIII-D 1 JET 2 10 th.

V. A. Soukhanovskii, XP1002 Review, 9 June 2010, Princeton, NJ 1 of 9 XP 1002: Core impurity density and P rad reduction using divertor condition modifications.

2014/03/06 那珂核融合研究所第 17 回若手科学者によるプラズマ研究会 SOL-divertor plasma simulations with virtual divertor model Satoshi Togo, Tomonori Takizuka a, Makoto Nakamura.

Features of Divertor Plasmas in W7-AS

Valeryi Sizyuk Ahmed Hassanein School of Nuclear Engineering

ITER consequences of JET 13C migration experiments Jim Strachan, PPPL Jan. 7, 2008 Modeled JET 13C migration for last 2 years- EPS 07 and NF paper in prep.

SOL plasma in ITER is dense and hot  thick to gas puff as in C-mod

PROGRESS IN THE ITER INTEGRATED MODELLING PROGRAMME AND THE ITER SCENARIO DATABASE ITER Integrated Modelling & Analysis Suite (IMAS) continues to mature.

Presentation transcript:

Barbora Gulejová 1 of 10 PSI 2008 abstract 5/12/2007 SOLPS modelling of Type I ELMing H-mode on JET Barbora Gulejová, Richard Pitts, David Coster, Xavier Bonnin, Marc Beurskens, Stefan Jachmich, Arne Kallenbach, Janos Marki Rehearsal of abstract for PSI 2008 OUTLINE * Type I ELMing H-mode on JET * Benchmarking code – experiment * Benchmarking code - code

Barbora Gulejová 2 of 10 PSI 2008 abstract 5/12/2007 Type I ELMing H-mode on JET # W dia P IN ~ 20 MW P RAD (below Xpoint) P RAD (core) D alpha Parameters B t = 3 T I p = 3 MA n e =6x10 19 m -3 P(SOL)= 19 MW No GAS PUFF !! ν* ped ~ (expected for ITER!) ELM parameters f elm ~ 2 Hz ΔW ELM ~ 1 MJ Simulated for the first time ! … with SOLPS5 Core LIDAR Edge LIDAR Li beam HRTS ECE Langmuir probes time =baseline scenario for Q DT =10 burning plasma operation on ITER !!! To avoid divertor damage => maximum ΔW ELM (ITER) ~ 1MJ = this is achievable on JET Bolometry (A.Huber) radiation between ELMs

Barbora Gulejová 3 of 10 PSI 2008 abstract 5/12/2007 Scrape-Off Layer Plasma Simulation Suite of codes to simulate transport in edge plasma of tokamaks B2 B2 - solves 2D multi-species fluid equations on a grid given from magnetic equilibrium EIRENE EIRENE - kinetic transport code for neutrals based on Monte - Carlo algorithm SOLPS 5 SOLPS 5 – coupled EIRENE + B2.5 Main inputs: magnetic equilibrium P sol = P heat – P rad core upstream separatrix density n e Free parameters: cross-field transport coefficients (D ┴,  ┴, v ┴ ) B2 plasma background => recycling fluxes EIRENE Sources and sinks due to neutrals and molecules measured systematically adjusted

Barbora Gulejová 4 of 10 PSI 2008 abstract 5/12/2007 Simulation vs. experiment - upstream D [m 2.s -1 ] Χ [m2.s-1] n e [m -3 ] T e [eV] T i [eV] v perp [m.s -1 ] inward pinch! Core LIDAR Edge LIDAR Li beam HRTS ECE

Barbora Gulejová 5 of 10 PSI 2008 abstract 5/12/2007 Simulation vs. experiment - targets (LP) Outer targetInner target SOLPS LP r-r sep ,2 30

Barbora Gulejová 6 of 10 PSI 2008 abstract 5/12/2007 Benchmarking code-code SOLPS 5 B2.5 + EIRENE fluid (Braginskii) kinetic (Monte Carlo), neutrals EDGE2D + NIMBUS fluid (Braginskii) kinetic (Monte Carlo), neutrals (less complex then EIRENE!) vs.

Barbora Gulejová 7 of 10 PSI 2008 abstract 5/12/2007 Type I ELMing H-mode on JET # Succesfully modelled by EDGE2D + NIMBUS by Arne Kallenbach (PPCF 46,2004) Core LIDAR Edge LIDAR Li beam ECE Parameters B t = 2 T I p = 2 MA n e = 4x10 19 m -3 P(SOL)= 12 MW GAS PUFF from inner divertor !! ELM parameters f elm ~ 30 Hz ΔW ELM ~ 200 kJ P IN ~ 14 MW P RAD (core) D alpha W dia time

Barbora Gulejová 8 of 10 PSI 2008 abstract 5/12/2007 Simulation vs. experiment-upstream EDGE2D+NIMBUS SOLPS r-r sep [m] Same Ansatz D,Chi,v Same ne,Te,Ti upstream profiles

Barbora Gulejová 9 of 10 PSI 2008 abstract 5/12/2007 Simulation vs. experiment-targets(LP) EDGE2D+NIMBUSSOLPS5 inner target outer target LPLP

Barbora Gulejová 10 of 10 PSI 2008 abstract 5/12/2007 Thank you for attention