Project | Task | Requested | Association | Person(s) | commitment | Comment |
Available | ||||||
IMP#3 | ITM-07-IMP3-T1: | 3 | Whole Device Modelling (0d) | |||
3 | CEA | J.F. Artaud, Mohamed Airaj | 2 | Coupling METIS to KEPLER (MatLab) | ||
ÖAW | K. Shoepf | 1 | Definition of Input and Output CPOs, modification of a 0d code (existing at Innsbruck University) for evolution of a burning ITER fusion plasma | |||
ITM-08-IMP3-T2: | 12 | Development of the standardized interfaces between the transport code and the physics modules and the implementation of these into the ETS. | ||||
4,5 | CEA | Vincent Basiuk | 2 | |||
FZJ | FZJ | 0,5 | Interfaces to equilibrium and transport. Provide ETS expert contributing to ITM-08 ITT-T6 (ETS) task | |||
IPP-Garching | G. Pereverzev | 1 | ||||
VR | Jan Weiland, Pär Strand | 1 | Combined effort of the Transport Theory Group: TCI, WEILAND, EDWM models | |||
ITM-08-IMP3-T3 | 6 | Use of the modules and interfaces, comparison with existing 1D codes (validation and verification) | ||||
12 | CRPP | S-H Kim, J. Lister | 1 | Provide comparison with combined DINA-CH & CRONOS | ||
ENEA | M. Marinucci | 2 | ||||
FZJ | FZJ | 0,5 | Verification of the ETS on simple analytical examples. Provide ETS expert contributing to ITM-08-ITT-T6 (ETS) task | |||
IPP-Garching | G. Pereverzev | 1 | ||||
ÖAW | Florian Köchl | 2 | Experience with 1.5-D transport codes JETTO and ASTRA | |||
ULB | Quentin Vanhaelenm, Oleg Shishkin, Giorgio Sonnino (1+1+2) | 4 | Could actively participate in the testing of ETS and its modules and report on their experience; Could actively participate in the testing of ETS and its modules and report on their experience; Activities will be focused on the modules and interfaces of the JETTO Code. A strong link will characterized the inclusion of a new transport module and its interface with the JETTO code: this new module will incorporate the Thermodynamic Field Theory (TFT) prediction by G. Sonnino etal, for the treatment of nonlinear and nonlocal effects in collisional transport processes. | |||
VR | Jan Weiland, Hans Nordman, Pär Strand, Annika Eriksson | 1,5 | Combined effort of the Transport Theory Group: TCI, WEILAND, EDWM models | |||
ITM-08-IMP3-T4 | 12 | Implementation of the ITM 2d datastructures in at least one edge code | ||||
5,5 | ENEA | F. Subba | 2 | Implementing edge-edge CPO’s would be very valuable for the ASPOEL code in order to simplify/standardize communications with other edge codes | ||
FZJ | FZJ | 2 | Provide expert experienced in use and development of B2-EIRENE and EDGE2D-NIMBUS codes | |||
UKAEA | Gerard Corrigan | 1,5 | To start implementing Edge2d on Kepler | |||
ITM-08-IMP3-T5 | 3 | Continuation of edge code validation | ||||
4 | CEA | Xavier Bonin[1] | 1 | [1] LIMHP, CNRS-UPR 1311, Université Paris 13, 99 Avenue J.-B. Clément, F-93430 Villetaneuse, France | ||
FZJ | FZJ (1+1) | 2 | Provide expert (co-author of B2-EIRENE package) for edge code benchmarking and validation activity + Provide expert experienced in use and development of B2-EIRENE and EDGE2D-NIMBUS codes for edge code benchmarking and validation activity | |||
IPP-Garching | D. Coster | 1 | ||||
ITM-08-IMP3-T6 | 7 | Module for impurities for the ETS | ||||
13,5 | FZJ | FZJ | 4,5 | Provide the module based on the one developed for code RITM | ||
IPPLM | Roman Stankiewicz, Sebastian Głowacz (3 + 3) | 6 | Similar modules has been already developed for COREDIV and TECXY codes; the latter is Young researcher entering the field of plasma and impurity modelling in tokamaks | |||
ULB | Sara Moradim Gorges Poulipoulis (2+1) | 3 | Would collaborate with colleagues from FZJ. Are already using RITM for impurity transport simulations. | |||
ITM-08-IMP3-T7 | 6 | Module for pellets for the ETS | ||||
14 | CEA | Bernard Pegourie | 2 | Adaptation of existing pellet code | ||
HAS | Dr. S. Kálvin, Dr. G. Kocsis, Dr. K. Gál | 6 | Many years experience in the field of pellet experiments on the ASDEX Upgrade tokamak.Participation in the JET pellet experiments for the 2008 campaigns. Existing 1D code describing the pellet ablation and pellet cloud expansion along the magnetic field line. This code includes all the relevant atomic physical processes. A quasi 2D hydrodynamic code is under development to improve the ablation rate calculation and adequate description of the pellet cloud parameters especially for large pellets for JET and ITER. | |||
ÖAW | Florian Köchl | 6 | In collaboration with Bernard Pégourié and Hassan Nehme (DRFC/CEA, Cadarache) | |||
ITM-08-IMP3-T8 | Fast module for neutrals | |||||
6,5 | FZJ | 3,5 | ||||
IPP-Garching | G. Pereverzev | 3 | ||||
ITM-08-IMP3-T9 | More accurate model for neutrals | |||||
2,1 | FZJ | FZJ | 1 | Provide the module based on transport of neutral impurities in ERO by means of 3D MC kinetics including ionization, elastic collisions, metastable tracking , etc. + Provide the module based on EIRENE code | ||
K. Schoepf, V. Goloborodko, V. Yavorskij (0.1+ 0.5+ 0.5) | 1,1 | Kinetic calculation of sources of neutrals | ||||
ITM-08-IMP3-T10 | 6 | Additional core-core code comparisons | ||||
5,5 | IPP-Garching | 1 | ||||
ÖAW | Florian Köchl | 4 | The work will be performed in the framework of the ITER
modelling WG Co-operation with V. Parail (JET) |
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UKAEA | Jim Conboy | 0,5 | TRANSP code expert | |||
ITM-08-IMP3-T11 | 4 | Definition of edge related CPOs | ||||
9,25 | ENEA | F. Subba | 1 | F. Subba is responsible for the development of the far SOL code ASPOEL. Edge-edge CPO’s will be needed to communicate with other edge codes (SOLPS) | ||
FZJ | FZJ | 1 | The standardized CPO for handling data structure for the edge code can be developed following implementation of edge codes at JET (EDGE2D) | |||
IPP-Garching | D. Coster | 0,25 | ||||
ÖAW | N. Jelic, S. Kuhn, D. Tskhakaya jun., Dr. Tskhakaya sen. (1+2+2+2) | 7 | Long-standing theoretical and numerical expertise in fluid boundary conditions for edge codes | |||
ITM-08-IMP3-T12 | 4 | Preparation of modules for handling core-edge coupling | ||||
2 | FZJ | FZJ | 2 | Provide the coupling module following the COCONUT example | ||
IPP-Garching | (D. Coster/G. Pereverzev) | [1] | Exceding G. Pereverzev's qouta of 6pms | |||
ITM-08-IMP3-T13 | Preparation of modules for handling boundary conditions for edge codes | |||||
15 | ENEA | F. Subba | 1 | The ASPOEL code should profit of suitable modules for boundary conditions handling. Also: wall boundary conditions (not explicitly mentioned in the call) would be of interest. | ||
IPP-CR | Renaud Dejarnac, Michael Komm (2+2) | 4 | We have developed our 2D-3V pic code for edge plasma modeling (sheath – we solve Poisson's equation) and already made some studies of plasma deposition into divertor tile gaps. We are able to provide plasma parameter profiles (n, T, v, etc...) as well as particle and power loads everywhere in a complex geometry. | |||
ÖAW | N. Jelić, S. Kuhn, D. Tskhakaya jun., Dr. Tskhakaya sen. (2+4+2+2) | 10 | ||||
ITM-08-IMP3-T14 | Preparation of modules for handling interactions with the wall | |||||
6 | ÖAW | S. Kuhn, D. Tskhakaya jun., Dr. Tskhakaya sen (2+2+2) | 6 | Provide the module based on wall inventory model (ERO-TRIDYN coupled code) | ||
ITM-08-IMP3-T15 | 3 | Preparation of a report on approaches for evolving grids in the edge (remeshing, moving mesh …) | ||||
0,75 | ENEA | F. Subba | 0,5 | The proposing contributor has experience in the field of developing and running adaptive grid tools for edge codes. This experience should be a favorable basis to take the issue of moving geometries in edge codes. Additional info’s on the issue are required. | ||
IPP-Garching | D. Coster | 0,25 | ||||
ITM-08-IMP3-T16 | 6 | Preparation of diagnostic CPOs to be used for ETS V&V | ||||
2 | ENEA | F. Subba | 1 | Suitable diagnostic CPOs would be very valuable to increase the efficiency of code/experiment benchmark in edge codes also. + other comments LGE | ||
FZJ | FZJ | 1 | Preparation of the CPO for the reflectometry diagnostic module. The realization depends on the ITM-08-TFL-T2 task | |||
105,6 | ||||||