Presentation is loading. Please wait.

Presentation is loading. Please wait.

Photonic T removal techniques in the EU G Counsell 1, P Coad 1, C Grisolia 2, A. Semerok 3, A Widdowson 1 1 EURATOM/UKAEA Fusion Association, Culham Science.

Published byPhilippa Eaton Modified over 8 years ago

Similar presentations

Presentation on theme: "Photonic T removal techniques in the EU G Counsell 1, P Coad 1, C Grisolia 2, A. Semerok 3, A Widdowson 1 1 EURATOM/UKAEA Fusion Association, Culham Science."— Presentation transcript:

1 Photonic T removal techniques in the EU G Counsell 1, P Coad 1, C Grisolia 2, A. Semerok 3, A Widdowson 1 1 EURATOM/UKAEA Fusion Association, Culham Science Centre, Abingdon, OX14 3DB, UK 2 Association EURATOM-CEA, CEA/DSM/DRFC Cadarache, 13108 St.Paul lez Durance, France 3 Max-Planck-Institut für Plasmaphysik, EURATOM Association, D-85748 Garching, Germany

2 2/23 T-removal through ‘photonic cleaning’ aC:H co-deposits have poor thermal conductivity compared to substrates (CFC, Be, W) Surface heat flux leads to rapid temperature rise in co-deposit  ablation or chemical ‘bond-breaking’ Two ‘photonic cleaning’ schemes under investigation:  LASER  Flash-lamp Requires vessel access, but can operate in high magnetic fields and in vacuuo, inert gas or atmospheric conditions Studies on-going in both laboratory and tokamak environments and both laboratory produced and tokamak co-deposited films

3 3/23 100mm 2 in 2s with 20W Ytterbium fibre laser (1060nm, 120ns, 20kHz), 2J/cm 2 on  250  m spot @ 40cm  0.03 - 0.3g T/h over 150m 2 Energy density threshold for removal Threshold factor 5 lower for co-deposit compared to graphite – selective removal No difference between active and inert gas environment Galvo-scanning fibre laser developed for JET Laser cleaning of TEXTOR tile Trials conducted in JET BeHF Co-deposit easily removed but only 10% T released  micro-particulate?

4 4/23 JET 2004 trial showed engineering feasibility of flash-lamp technology Flash-lamp cleaning of tritiated aC:H Trials now conducted using flash-lamp in JET berylium handling facility Aim to clean thick, tritiated co-deposit from inner divertor CFC tile  Photon flux from 500J, 140  s flash-lamp  3.6MW  Rep. rate 5Hz  Focused using semi-elliptical cavity –  Footprint ~30cm 2 @ 30mm  375MWm -2, 6J/cm 2 Three positions treated (with varying co-deposit thickness and tritiation) Tritium release monitored and tile sent for SIMS/IBA/SEM analysis

5 5/23 1 st demonstration of T-removal Total T release ~9  g. Decreasing efficiency with number of pulses 40% of T inventory & 70-90  m co-deposit, removed (off gas & SEM)  0.075g T/h over 150m 2 Untreated Treated  7  m de-tritiation at surface of treated zone  Consistent with FE calcs of bulk heating above 700K  Build-up of Ni at surface  explanation for roll-over of tritium release/pulse? (similar results for Be on other treated tiles)

Download ppt "Photonic T removal techniques in the EU G Counsell 1, P Coad 1, C Grisolia 2, A. Semerok 3, A Widdowson 1 1 EURATOM/UKAEA Fusion Association, Culham Science."

Similar presentations

Progress with PWI activities at UKAEA Fusion 2004-5 GF Counsell, A Kirk, E Delchambre, S Lisgo, M Forrest, M Price, J Dowling, F Lott, B Dudson, A Foster,

Progress with PWI activities at UKAEA Fusion GF Counsell, A Kirk, E Delchambre, S Lisgo, M Forrest, M Price, J Dowling, F Lott, B Dudson, A Foster,
EU-PWI TF meeting, Caderache, 17-19 October 2005 Progress with T-recovery techniques 2004-5 P Coad 1, GF Counsell 1, G. Dinescu 6, H. G. Esser 4, JA Ferreira.

EU-PWI TF meeting, Caderache, October 2005 Progress with T-recovery techniques P Coad 1, GF Counsell 1, G. Dinescu 6, H. G. Esser 4, JA Ferreira.
TORE SUPRA Association EURATOM-CEA Philipps, Huber, Schweer, Sergienko, Brezinsek, Mertens, Zlobinski & Grisolia, Hernandez, Roche, Pocheau, Davi, Semerok.

TORE SUPRA Association EURATOM-CEA Philipps, Huber, Schweer, Sergienko, Brezinsek, Mertens, Zlobinski & Grisolia, Hernandez, Roche, Pocheau, Davi, Semerok.
JET PFC Analysis, TFFT and the ILW

JET PFC Analysis, TFFT and the ILW
In-Vessel Dust&Tritium Management* 1 *Based on the report of a European Group of Experts on In-Vessel Dust & Tritium Management P. Coad, G. Counsell, J.

In-Vessel Dust&Tritium Management* 1 *Based on the report of a European Group of Experts on In-Vessel Dust & Tritium Management P. Coad, G. Counsell, J.
EU-PWI TF meeting, Ljubljana, 13-15 November 2006 Progress with tritium removal and mitigation 2005-6 G Counsell 1, D Borodin 4, P Coad 1, J Ferreira 8,

EU-PWI TF meeting, Ljubljana, November 2006 Progress with tritium removal and mitigation G Counsell 1, D Borodin 4, P Coad 1, J Ferreira 8,
CIPS SEWG FR, JET 2008C. Hopf O 2 /He glow discharge cleaning: Experience at IPP Christian Hopf, Volker Rohde, Wolfgang Jacob Max-Planck-Institut für Plasmaphysik.

CIPS SEWG FR, JET 2008C. Hopf O 2 /He glow discharge cleaning: Experience at IPP Christian Hopf, Volker Rohde, Wolfgang Jacob Max-Planck-Institut für Plasmaphysik.
Kazuyoshi Sugiyama, SEWG meeting on Fuel retention, Garching, July 20 2010 1 Contribution of Boron on the D retention in the AUG full-W wall regime Max-Planck-Institut.

Kazuyoshi Sugiyama, SEWG meeting on Fuel retention, Garching, July Contribution of Boron on the D retention in the AUG full-W wall regime Max-Planck-Institut.
SEWG Gas Balance 2007 © Matej Mayer First results on deuterium depth profiling in W tiles M. Mayer 1, V.Kh. Alimov, V. Rohde 1, J. Roth 1, A. Herrmann.

SEWG Gas Balance 2007 © Matej Mayer First results on deuterium depth profiling in W tiles M. Mayer 1, V.Kh. Alimov, V. Rohde 1, J. Roth 1, A. Herrmann.
1. Qualifying carbon as PFC Erosion (see report S. Brezinsek ) along plasma wetted areas, effect of substrate Local C migration to gaps Fuel retention.

1. Qualifying carbon as PFC Erosion (see report S. Brezinsek ) along plasma wetted areas, effect of substrate Local C migration to gaps Fuel retention.
TFE Th Loarer – SEWG – 12 September 2007 1 Euratom Th Loarer V Philipps 2, J Bucalossi 1, D Brennan 3, J Brzozowski 4, N Balshaw 3, R Clarke 3, G Esser.

TFE Th Loarer – SEWG – 12 September Euratom Th Loarer V Philipps 2, J Bucalossi 1, D Brennan 3, J Brzozowski 4, N Balshaw 3, R Clarke 3, G Esser.
Mixed materials in JET 2006 J P Coad Present JET situation Deposited films at the inner divertor (plasma-facing surfaces) Films deposited in shadowed areas.

Mixed materials in JET 2006 J P Coad Present JET situation Deposited films at the inner divertor (plasma-facing surfaces) Films deposited in shadowed areas.
1SEWG Fuel removal - Glow improvement for JET D. Douai22-23 July 2008 EFDA Task Glow discharge improvement for JET D. Douai 1, D. Garnier 1, S. Brémond.

1SEWG Fuel removal - Glow improvement for JET D. Douai22-23 July 2008 EFDA Task Glow discharge improvement for JET D. Douai 1, D. Garnier 1, S. Brémond.
Transient heat load tests with Nd:YAG laser Main results of EFDA TW3-TPP/ERCAR PWI Task Force meeting – CEA Cadarache 17-19 October 2005 Douglas dHulst,

Transient heat load tests with Nd:YAG laser Main results of EFDA TW3-TPP/ERCAR PWI Task Force meeting – CEA Cadarache October 2005 Douglas dHulst,
Institute for Plasma Physics Rijnhuizen D retention in W and mixed systems in Pilot-PSI G. De Temmerman a, K. Bystrov a, L. Marot b, M. Mayer c, J.J. Zielinski.

Institute for Plasma Physics Rijnhuizen D retention in W and mixed systems in Pilot-PSI G. De Temmerman a, K. Bystrov a, L. Marot b, M. Mayer c, J.J. Zielinski.
6 th EU PWI TF Meeting Madrid, Oct. 2007 1 Tritium Inventory in ITER: Laboratory data and extrapolation from tokamaks Th Loarer, J Roth, S Brezinsek, A.

6 th EU PWI TF Meeting Madrid, Oct Tritium Inventory in ITER: Laboratory data and extrapolation from tokamaks Th Loarer, J Roth, S Brezinsek, A.
Cleaning of co-deposited layers by movable devices based on radiofrequency discharges C. Stancu 1, E.R. Rosini 1, V. Satulu 1, T. Acsente 1, B. Mitu 1,

Cleaning of co-deposited layers by movable devices based on radiofrequency discharges C. Stancu 1, E.R. Rosini 1, V. Satulu 1, T. Acsente 1, B. Mitu 1,
Effects of ICRF conditioning on the first wall in LHD N. Ashikawa, K. Saito, T. Seki, M. Tokitani, Y. Ohtawa 1), M. Nishiura, S. Masuzaki K. Nishimura.

Effects of ICRF conditioning on the first wall in LHD N. Ashikawa, K. Saito, T. Seki, M. Tokitani, Y. Ohtawa 1), M. Nishiura, S. Masuzaki K. Nishimura.
PhD studies report: FUSION energy: basic principles, equipment and materials Birutė Bobrovaitė; Supervisor dr. Liudas Pranevičius.

PhD studies report: "FUSION energy: basic principles, equipment and materials" Birutė Bobrovaitė; Supervisor dr. Liudas Pranevičius.
Trilateral Euregio Cluster TEC Institut für Plasmaphysik Assoziation EURATOM-Forschungszentrum Jülich Development of in situ diagnostic for fuel retention,

Trilateral Euregio Cluster TEC Institut für Plasmaphysik Assoziation EURATOM-Forschungszentrum Jülich Development of in situ diagnostic for fuel retention,

Similar presentations

Ads by Google