The 10 MW ECRH System for W7-X
V. Erckmann
for the
W7-X teams at IPP Garching*
FZK Karlsruhe** and IPF Stuttgart***
*Max Planck Institut für Plasmaphysik, EURATOM Association,
Teilinstitut Greifswald, D-17491 Greifswald, Germany
** Forschungszentrum Karlsruhe, D-76021 Karlsruhe, Germany
***Institut für Plasmaforschung, Universität Stuttgart,
D-70569 Stuttgart, Germany
Electron Cyclotron Resonance Heating (ECRH) is the main heating method for the Wendelstein 7-X Stellarator (W7-X),which is the next step device in the stellarator line of IPP and is presently under construction. The experiment aims at demon-strating the inherent steady state capability of stellarators at reactor relevant plasma parameters and is therefore equipped with a super-conducting coil system. A 10 MW ECRH power plant with CW-capability at 140 GHz is under construction to meet the scientific objectives. The microwave power is generated by 10 gyrotrons with 1 MW each. A prototype gyrotron is presently being developed in collaboration between european research-laboratories and industry and incorporates advanced features like single stage depressed collector, optimized quasi-optical mode converter and a CVD-diamond window. The first prototype was successfully tested and an output power of up to 1 MW, a pulse duration of up to 180 s (at reduced power) and an efficiency of up to 50 % was achieved. Recent test results are reported. The gyrotrons are supplied by 10 modular solid state HV-supplies (65 kV, 50 A each) providing fast power control and high flexibility. The first power supply module is presently under test. The ten individual microwave beams are combined and transmitted to the main torus hall by an open quasi-optical transmission system with high transmission efficiency, which runs at normal pressure and consists of water cooled imaging mirrors. Cold tests of a full size, uncooled prototype line and the related RF-diagnostics are discussed. The microwave power is launched to the plasma through 10 diamond barrier windows and in-vessel quasi-optical plug-in launchers, which allow an independent steering of each beam. The polarization as well as the poloidal and toroidal launch angle of each microwave beam can be individually controlled to provide optimal conditions for different heating and current drive scenarios. The construction of the ECRH plant is well under way and the status is presented.
ICOPS
2002International Conference on Plasma Science
Abstract Submitted for the 29th IEEE
International Conference on Plasma Science
May 26-30, 2002
Banff, Alberta, Canada
Abstracts should be submitted by e-mail using this MS Word file.
Subject Topic: Microwave Generation and Microwave Plasma Interaction
Subject Number: 2.5 Microwave Systems
x Prefer Oral Session
__ Prefer Poster Session
__ No Preference
__ Special requests for placement of abstract:
_________________________________________
Special requests for equipment: _____no______
______________________________________________
Submitted by
___Dr. Volker ErckmannAffiliation/Institution/Company
Max Planck Institut für Plasmaphysik,
EURATOM Association
Mailing Address Teilinstitut Greifswald,
Wendelsteinstr. 1, D-17491 Greifswald, Germany
City Greifswald
State ____________________________________
Province _________________________________
Zip Code _________________________________
Country Germany
Phone ++49-3834-88-2000
Fax _++49.3834-88-2450
E-mail volker.erckmann@ipp.mpg.de
Abstract must be received no later than
Jan. 18, 2002
e-mail to: icops2002@ee.ualberta.ca
If submitting by mail send original and two copies to:
ICOPS2002
Lee Grimard
423 Department of Physics
University of Alberta
Edmonton, AB Canada T6G 2J1