Disruption: Difference between revisions
m (Reverted edits by 174.129.205.123 (Talk) to last revision by Admin) |
No edit summary |
||
| Line 1: | Line 1: | ||
A disruption is a violent event that terminates a magnetically confined plasma, usually the consequence of a rapidly growing instability, often of the MHD type. In a disruption, the temperature drops drastically and heat and particles are released from confinement on a short timescale and dumped on the vessel wall, causing damage in proportion to the stored energy. The loss of confinement is associated with the production of runaway electrons, which may also produce damage. | A disruption is a violent event that terminates a magnetically confined plasma, usually the consequence of a rapidly growing instability, often of the MHD type. | ||
<ref>[http://dx.doi.org/10.1088/0029-5515/51/5/053018 P.C. de Vries et al, ''Survey of disruption causes at JET'', Nucl. Fusion '''51''' (2011) 053018]</ref> | |||
In a disruption, the temperature drops drastically and heat and particles are released from confinement on a short timescale and dumped on the vessel wall, causing damage in proportion to the stored energy. The loss of confinement is associated with the production of runaway electrons, which may also produce damage. | |||
<ref>[http://dx.doi.org/10.1016/S0022-3115(00)00151-3 A. Cardella et al, ''Effects of plasma disruption events on ITER first wall materials'', Journal of Nuclear Materials '''283-287''', Part 2 (2000) 1105-1110]</ref> | <ref>[http://dx.doi.org/10.1016/S0022-3115(00)00151-3 A. Cardella et al, ''Effects of plasma disruption events on ITER first wall materials'', Journal of Nuclear Materials '''283-287''', Part 2 (2000) 1105-1110]</ref> | ||
Revision as of 15:16, 21 July 2011
A disruption is a violent event that terminates a magnetically confined plasma, usually the consequence of a rapidly growing instability, often of the MHD type. [1] In a disruption, the temperature drops drastically and heat and particles are released from confinement on a short timescale and dumped on the vessel wall, causing damage in proportion to the stored energy. The loss of confinement is associated with the production of runaway electrons, which may also produce damage. [2]
The magnetic effects of a disruption (associated with the sudden loss of the net plasma current) generate large magnetic forces on the metallic structures surrounding the plasma (the vessel, the coils, and the supporting structure), also known as Vertical Displacement Events, which may induce mechanical damage.
Disruption avoidance or mitigation is an important topic for ITER. [3]
Due to the fact that in stellarators, confinement does not depend on the plasma current, disruptions are less severe or inexistent in such machines, which is a significant advantage for the design of a future stellarator reactor. [4]
References
- ↑ P.C. de Vries et al, Survey of disruption causes at JET, Nucl. Fusion 51 (2011) 053018
- ↑ A. Cardella et al, Effects of plasma disruption events on ITER first wall materials, Journal of Nuclear Materials 283-287, Part 2 (2000) 1105-1110
- ↑ ITER Physics Expert Group on Disruptions, Plasma Control, and MHD, ITER Physics Basis Chapter 3: MHD stability, operational limits and disruptions, Nucl. Fusion 39 (1999) 2251-2389
- ↑ G.H. Neilson et al, Physics issues in the design of high-beta, low-aspect-ratio stellarator experiments, Phys. Plasmas 7 (2000) 1911