DocumentCode :
2759151
Title :
Assembly Technology for the W7-X Stellarator
Author :
Hurd, F.H.
Author_Institution :
Max-Planck-Inst. fur Plasmaphys., EURATOM Assoc., Greifswald
fYear :
2005
fDate :
Sept. 2005
Firstpage :
1
Lastpage :
4
Abstract :
Wendelstein 7-X is a superconducting Sellarator being constructed in Greifswald, Germany. The technology needed to assemble the basic-machine W7-X requires a complex integration of engineering disciplines from the accuracy of manufacture through to the metrology techniques and equipment to successfully assemble the machine. The spiral shape of the Stellarator vacuum vessel means the 70 coils must be threaded individually over the vacuum vessel. To avoid damage to the thermal insulation 5 axis lifting devices have been designed to thread coils into their final position. The distance between the coils is fixed by a series of radial and lateral support elements, central support elements and planar support elements, the assembly technology is being developed and tested by an extensive test programme. W7-X is equipped with 299 ports for diagnostics and supply of in vessel components; they connect the ICRH, ECRH and neutral injection systems to the plasma vessel. All ports must be positioned accurately at various angles around the vacuum vessel, ranging in weight from 100 kg up to 900 kg. For the ports this requires close integration of the manufacturing, metrology and assembly technologies. At present it is planned to use a powered ramp. It is planned that the ramp and its support structure will also be used to insert the thermal insulation of the port, the ´plug in´ in vessel component supply bundles and possibly diagnostics. The bus bar system links all coils to the power supply system. Space constraints within the machine cryostat require compact superconducting joints which, have been designed and tested with a resistance in the range of lnOhm. The paper will give an overview of the various technologies being used to solve the assembly problems on the various components and the status of the assembly of the basic-machine
Keywords :
cryostats; fusion reactor design; fusion reactor ignition; fusion reactor materials; plasma beam injection heating; plasma radiofrequency heating; stellarators; superconducting coils; ECRH; ICRH; Stellarator vacuum vessel; Wendelstein 7-X; assembly technology; axis lifting devices; bus bar system; central support elements; lateral support elements; machine cryostat; metrology techniques; neutral injection systems; planar support elements; power supply system; powered ramp; radial support elements; space constraints; spiral shape; superconducting Sellarator; superconducting joints; thermal insulation; thread coils; Assembly; Insulation; Manufacturing; Metrology; Shape; Space technology; Spirals; Superconducting coils; Testing; Yarn; Stellorator; machine assembly; super conducting coils;
fLanguage :
English
Publisher :
ieee
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
Type :
conf
DOI :
10.1109/FUSION.2005.252884
Filename :
4018918
Link To Document :
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