Optimization of the cooling circuit and thermo-mechanical analysis for the extraction grid of ELISE

The NNBI test facility ELISE ("Extraction from a Large Ion Source Experiment"), presently under construction at IPP, will have an extraction area with the same width and half the height of the ITER source, acceleration up to 60 kV, for 10 s, every 180 s, and plasma generation up to 1 h. Electrons are co-extracted from the ion source. Suppression magnets in the extraction grid deflect the electrons onto the extraction grid surface. For 30 mA/cm(2) extracted electron current density and 10 kV extraction voltage, localized power density is in the order of 39 MW/m(2) near the grid apertures and a total heat load of 150 kW is deposited onto each extraction grid segment. Heat removal is provided by a water circuit inside the grid. For ELISE, a new cooling circuit has been developed to provide a more reliable operation. The optimization of the cooling circuit and the thermo-mechanical analysis of the extraction grid of ELISE, considering maximum grid temperature, mechanical stresses and grid deformation, has been performed using the codes KOBRA3, TrajAn, the ANSYS finite element package and the fluid dynamics code CFX. (C) 2011 Elsevier B.V. All rights reserved.