behaviour of runaway electrons during injection of high z impurities/gas puffing in ht-7 s.sajjad...

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Behaviour of Runaway Electrons during Injection of High Z Impurities/Gas Puffing in HT-7 S.Sajjad 2008-03-16 INSTITUTE OF PLASMA PHYSICS,HEFEI CHINA

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Page 1: Behaviour of Runaway Electrons during Injection of High Z Impurities/Gas Puffing in HT-7 S.Sajjad 2008-03-16 INSTITUTE OF PLASMA PHYSICS,HEFEI CHINA

Behaviour of Runaway Electrons during Injection of High Z

Impurities/Gas Puffing in HT-7

S.Sajjad

2008-03-16

INSTITUTE OF PLASMA PHYSICS,HEFEI CHINA

Page 2: Behaviour of Runaway Electrons during Injection of High Z Impurities/Gas Puffing in HT-7 S.Sajjad 2008-03-16 INSTITUTE OF PLASMA PHYSICS,HEFEI CHINA

Outlines

1. Motivation

2. Experimental Background

3. Density Ramp up

4. Background Results

5. Parameters for Experiment

Page 3: Behaviour of Runaway Electrons during Injection of High Z Impurities/Gas Puffing in HT-7 S.Sajjad 2008-03-16 INSTITUTE OF PLASMA PHYSICS,HEFEI CHINA

Motivation1. The avoidance and mitigation of disruptions are

critical issues in advancing the tokamak concept as a viable energy source using magnetic confinement fusion.

2. The highly resistive plasma causes the confining poloidal magnetic field to decay during the toroidal current quench (CQ).

3. The disruption causes damage by these means: (i) Plasma-conducted thermal loading of wall surfaces during the thermal quench, (ii) J X B forces from vessel poloidal halo currents induced by the current quench. (iii) The conversion of the toroidal plasma current into relativistic runaway electrons (RE) that eventually are stopped by the wall.

Page 4: Behaviour of Runaway Electrons during Injection of High Z Impurities/Gas Puffing in HT-7 S.Sajjad 2008-03-16 INSTITUTE OF PLASMA PHYSICS,HEFEI CHINA

1. It has been found that a massive injection of a high-Z gas such as neon, argon and xenon can terminate a disruption-generated runaway currents before the runaway electrons hit the walls.

2. High-pressure gas-jet injection of neon and argon is shown to be a simple and robust method to mitigate the deleterious effects of disruptions on the DIII-D.

3. The low pressure noble gas puffing and killer pellet (neon ice pellet) injection in the JT-60U has been used for avoidance and mitigation of disruptions.

4. It has been also shown that runaway electrons cannot gain high energies in the presence of high-Z noble gases, and the runaway electrons are also cooled down to thermal velocity.

References:

1. D. G. Whyte et al, Physical review letters, (2002) 89, 055001-1

2. M. Bakhtiari et al, Physical review letters, (2005) 94, 215003-1

Experimental Background

Page 5: Behaviour of Runaway Electrons during Injection of High Z Impurities/Gas Puffing in HT-7 S.Sajjad 2008-03-16 INSTITUTE OF PLASMA PHYSICS,HEFEI CHINA

Density Ramp up

Page 6: Behaviour of Runaway Electrons during Injection of High Z Impurities/Gas Puffing in HT-7 S.Sajjad 2008-03-16 INSTITUTE OF PLASMA PHYSICS,HEFEI CHINA

Results from DIII-D

Page 7: Behaviour of Runaway Electrons during Injection of High Z Impurities/Gas Puffing in HT-7 S.Sajjad 2008-03-16 INSTITUTE OF PLASMA PHYSICS,HEFEI CHINA
Page 8: Behaviour of Runaway Electrons during Injection of High Z Impurities/Gas Puffing in HT-7 S.Sajjad 2008-03-16 INSTITUTE OF PLASMA PHYSICS,HEFEI CHINA

Parameters for Experiment• Ohmic shots:• Ip=100kA• ne= 0.7-0.9,0.7-1.1,0.7-1.5,0.7-2 • IT= 4000A• Puffing gas= Neon, Argon, Xenon• Gas Pulse Width: 5ms, 10ms, 15ms 20ms• LHCD Shots:• Ip=120 kA• ne= 0.7-0.9,0.7-1.1,0.7-1.5,0.7-2 • PLH=200kW

Page 9: Behaviour of Runaway Electrons during Injection of High Z Impurities/Gas Puffing in HT-7 S.Sajjad 2008-03-16 INSTITUTE OF PLASMA PHYSICS,HEFEI CHINA

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