Component Design in Tight Areas in the Cryostat of Wendelstein 7-X-Configuration Management and Control

The 3-D geometry and tight space within the cryostat of the Wendelstein 7-X (W7-X) stellarator necessitate a complex and very dense packing of components, which, on the other hand, must not contact each other in order to prevent detrimental mechanical loads or thermal shorts. The available space is...

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Published in:IEEE transactions on plasma science 2010-03, Vol.38 (3), p.346-351
Main Authors: Brakel, R., Baylard, C., Greve, H., Hartmann, D.A., Herold, F., Pilopp, D., van Eeten, P.
Format: Article
Language:English
Subjects:
Activation
Assembly
Bars
Buses (vehicles)
Coils
Configuration control
configuration management
Cryostats
Deformation
design
Design engineering
Design methodology
Devices
Electromagnetic forces
Electromagnetics
Exact sciences and technology
Geometry
Loads (forces)
Magnetic confinement and equilibrium
Physics
Physics of gases, plasmas and electric discharges
Physics of plasmas and electric discharges
Plasma
Plasma density
Project management
reverse engineering
Space cooling
stellarator
Stellarators, torsatrons, heliacs, bumpy tori, and other toroidal confinement devices
Thermal loading
Wendelstein 7-X (W7-X)
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container_start_page 346
container_title IEEE transactions on plasma science
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creator Brakel, R.
Baylard, C.
Greve, H.
Hartmann, D.A.
Herold, F.
Pilopp, D.
van Eeten, P.
description The 3-D geometry and tight space within the cryostat of the Wendelstein 7-X (W7-X) stellarator necessitate a complex and very dense packing of components, which, on the other hand, must not contact each other in order to prevent detrimental mechanical loads or thermal shorts. The available space is further narrowed by movement and deformation of the components during evacuation of the cryostat, baking of the plasma vessel, and cooldown of the magnet system. Furthermore, when the magnet system is energized, coils, support structure, and bus bars deform under the electromagnetic forces. In order to ensure collision-free design and operation, dedicated organizational structures and methods for design, configuration space control, and configuration management have recently been implemented within the W7-X project to cope with this challenging task at a time where device assembly is steadily proceeding, while important components in the cryostat are still under design or procurement.
doi_str_mv 10.1109/TPS.2009.2037906
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The available space is further narrowed by movement and deformation of the components during evacuation of the cryostat, baking of the plasma vessel, and cooldown of the magnet system. Furthermore, when the magnet system is energized, coils, support structure, and bus bars deform under the electromagnetic forces. 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source IEEE Electronic Library (IEL) Journals
subjects Activation
Assembly
Bars
Buses (vehicles)
Coils
Configuration control
configuration management
Cryostats
Deformation
design
Design engineering
Design methodology
Devices
Electromagnetic forces
Electromagnetics
Exact sciences and technology
Geometry
Loads (forces)
Magnetic confinement and equilibrium
Physics
Physics of gases, plasmas and electric discharges
Physics of plasmas and electric discharges
Plasma
Plasma density
Project management
reverse engineering
Space cooling
stellarator
Stellarators, torsatrons, heliacs, bumpy tori, and other toroidal confinement devices
Thermal loading
Wendelstein 7-X (W7-X)
title Component Design in Tight Areas in the Cryostat of Wendelstein 7-X-Configuration Management and Control
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