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Supersonic Gas Injector for Plasma Fueling
M. Bell
W. Blanchard
T. Gray
A. L. Roquemore
G. Gettelfinger
C. Bush
R. Majeski
H. W. Kugel
J. Menard
R. Kaita
V. A. Soukhanovskii
R. Gernhardt
P. Sichta
R. Raman
T. Provost
出版
United States. Department of Energy
, 2005
URL
http://books.google.com.hk/books?id=Kj6eAQAACAAJ&hl=&source=gbs_api
註釋
A supersonic gas injector (SGI) has been developed for fueling and diagnostic applications on the National Spherical Torus Experiment (NSTX). It is comprised of a graphite converging-diverging Laval nozzle and a commercial piezoelectric gas valve mounted on a movable probe at a low field side midplane port location. Also mounted on the probe is a diagnostic package: a Langmuir probe, two thermocouples and five pickup coils for measuring toroidal, radial, vertical magnetic field components and magnetic fluctuations at the location of the SGI tip. The SGI flow rate is up to 4 x 10{sup 21} particles/s, comparable to conventional NSTX gas injectors. The nozzle operates in a pulsed regime at room temperature and a reservoir gas pressure up to 0.33 MPa. The deuterium jet Mach number of about 4, and the divergence half-angle of 5{sup o}-25{sup o} have been measured in laboratory experiments simulating NSTX environment. In initial NSTX experiments reliable operation of the SGI and all mounted diagnostics at distances 1-20 cm from the plasma separatrix has been demonstrated. The SGI has been used for fueling of ohmic and 2-4 MW NBI heated L- and H-mode plasmas. Fueling efficiency in the range 0.1-0.3 has been obtained from the plasma electron inventory analysis.
