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Recent Disruption Studies in NSTX S.P. Gerhardt. Four Destructive Phenomena Associated With Disruptions Thermal Quench –Extremely Rapid (<1msec) loss.

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Presentation on theme: "Recent Disruption Studies in NSTX S.P. Gerhardt. Four Destructive Phenomena Associated With Disruptions Thermal Quench –Extremely Rapid (<1msec) loss."— Presentation transcript:

1 Recent Disruption Studies in NSTX S.P. Gerhardt

2 Four Destructive Phenomena Associated With Disruptions Thermal Quench –Extremely Rapid (<1msec) loss of the plasmas thermal energy. –May lead to impulsive loading of PFCs beyond the melting/ablation threshold of materials. –Not well diagnosed in NSTX…need fast IR thermography. Current Quench –Rapid termination of the plasma current. –Leads to eddy currents in nearby conductive structures (overturning moments on ITER blanket modules) –Much NSTX Data, briefly mentioned here. Runaway Electron Generation Halo Currents –When vertical plasma motion leads-> currents link plasma and PFC. –The currents in the PFC X B T yield large forces. –Both new and old diagnostics collect data.

3 Mirnovs and Rogowski Are Main Diagnostics For Current Quench

4 Eddy Current Drive [(dB/dt)/I P ] Depends on Vertical Motion Up Center Down

5 Opposite Trend for Lower OBD Up Center Down

6 Halo Current Diagnostics For CY08 Run Two Pearson CTs on CHI Bus Current from inner to outer vessel Rogowskis on the CSC CSCL1, CSCL2, CSCU1 Two Arrays of 6 B T coils Inner Ring: Just Outside the CHI Gap Outer Ring: Just Outside the OBD Difference Between These: Current into the OBD NSTX Is Only Device with this Broken Halo Current Path

7 Example 1: Shot 127277, Upward Going VDE

8 Example 2: Shot 126743, Downward Going VDE

9 Example 3: Shot 127492, Downward Going VDE

10 Halo Current Fractions Often Depend on VDE Directions Pearson CSCL1 Inner Ring OBD

11 How Much Halo Current Can We Expect? JET Data Riccardo et al, PPCF, 2004 I p,halo ~I p /q 95

12 Halo Current Magnitude In Agreement With Scalings From Other Devices Lines I p,halo =I p /q 95 I p,halo =0.65 I p /q 95 Pearson CSCL1 Inner Ring OBD

13 TPF Appears to Decrease with HCF Preliminary

14 Quench Rate and Halo Currents are Not Anti-Correlated Pearson CSCL1 Inner Ring OBD

15 Conclusions Large Database of Quench Rates and Field Derivative Measurements…plasma motion is very important. New Halo Currents Measurements Are Working And Collecting Data New Halo Current Paths are Measured Have Revised Upward the Halo Current Limits to be in line with expectations.

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