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Overview on Wendelstein 7-X Theory
Fusion Technology, 1995The stellarator optimization leading to the physics design of Wendelstein 7-X (W7-X) is reviewed. The need for stellarator optimization is exemplified.
Nührenberg, J. +6 more
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Protection system for the superconducting coils in WENDELSTEIN 7-X [PDF]
Apart from scientific aims, an important technical goal of WENDELSTEIN 7-X is to demonstrate stationary operation. This is a fundamental fusion-reactor requirement and a characteristic advantage of stellarators over tokamak fusion reactors.
Mönnich, Th. +3 more
exaly +2 more sources
Physik in unserer Zeit, 2019
ZusammenfassungEnde 2015 haben die Experimente an Wendelstein 7‐X begonnen, der weltweit größten Fusionsanlage vom Stellarator‐Typ. Wendelstein 7‐X soll die Kraftwerkstauglichkeit dieses alternativen Konzepts demonstrieren. Ein verbessertes Magnetfeld soll die Schwierigkeiten früherer Stellaratoren überwinden, die Qualität von Plasmagleichgewicht und ...
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ZusammenfassungEnde 2015 haben die Experimente an Wendelstein 7‐X begonnen, der weltweit größten Fusionsanlage vom Stellarator‐Typ. Wendelstein 7‐X soll die Kraftwerkstauglichkeit dieses alternativen Konzepts demonstrieren. Ein verbessertes Magnetfeld soll die Schwierigkeiten früherer Stellaratoren überwinden, die Qualität von Plasmagleichgewicht und ...
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ICRF heating for Wendelstein 7-X
Fusion Engineering and Design, 2003Abstract The stellarator Wendelstein 7-X is being built in Greifswald, Germany, by the Max-Planck-Institut fur Plasmaphysik. Initially, the heating system will consist of 10 MW ECRH and 4 MW ICRF heating (both cw) and 5 MW NBI (for 15 s every 3 min). ECRH is the principal heating method at a magnetic field of B =2.5 T.
Wesner, F. +4 more
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The layout of the WENDELSTEIN 7-X magnet
Fusion Engineering and Design, 2001Abstract The superconducting magnet system for the new stellarator WENDELSTEIN 7-X, to be located at Greifswald, Germany, consists of 50 non-planar and 20 planar large magnetic coils. A central support ring carries the coils and keeps them in their geometrical position.
Sapper, J. +3 more
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Engineering Challenges of Wendelstein 7-X Mechanical Monitoring During Second Phase of Operation
Fusion Science and Technology, 2019VÍCTOR Bykov, Jiawu Zhu, J Geiger
exaly
Construction of Wendelstein 7-X—Engineering a Steady-State Stellarator
IEEE Transactions on Plasma Science, 2010Hans-Stephan Bosch +2 more
exaly
Manufacture and test of the non-planar coils for WENDELSTEIN 7-X
Fusion Engineering and Design, 2005Konrad Rise, H Ehmler
exaly

