Title :
Gas-cooled divertor design approach for ARIES-CS
Author :
Ihli, T. ; Raffray, A. ; Team, The
Author_Institution :
Forschungszentrum Karlsruhe GmbH
Abstract :
A major focus of the Phase II activities of the ARIES-CS study included a parallel effort on a conceptual design study of the divertor and on better understanding the divertor physics. A new promising divertor concept was evolved and investigated, and is presented in this paper. While the concept builds on some basic features from recently presented DEMO-related divertor designs, a number of new features were introduced and the specific needs of a compact stellarator divertor in terms of manifolds and reactor integration were addressed. In this paper, also major results from the thermo-mechanical analysis of the divertor concept are summarized and key performance, fabrication and integration issues are discussed
Keywords :
fusion reactor design; fusion reactor divertors; fusion reactor targets; heat transfer; stellarators; thermomechanical treatment; ARIES-CS power plant; DEMO-related divertor designs; compact stellarator divertor; fabrication technology; flow channels; gas-cooled divertor design; heat transfer coefficient; heat transfer performance; jet impingement cooling principle; phase II activities; pressure drop; reactor integration; target armor material; thermo-mechanical analysis; Cooling; Fabrication; Heat transfer; Physics; Power generation; Sputtering; Temperature; Thermal expansion; Thermal stresses; Tokamaks;
Conference_Titel :
Fusion Engineering 2005, Twenty-First IEEE/NPS Symposium on
Conference_Location :
Knoxville, TN
Print_ISBN :
0-4244-0150-X
Electronic_ISBN :
0-4244-0150-X
DOI :
10.1109/FUSION.2005.252956
