TY - JOUR
T1 - Plasma impurity content, gas fueling, and exhaust on DIII-D over extended periods between boronizations
AU - West, W. P.
AU - Groth, M.
AU - Hyatt, A. W.
AU - Brooks, N. H.
AU - Jackson, G. L.
AU - Wade, M. R.
AU - Greenfield, C. M.
PY - 2009/6/15
Y1 - 2009/6/15
N2 - During the 2006 and 2007 DIII-D experimental campaigns the rate of boronization events was reduced significantly from past campaigns with no detrimental effects on discharges, including high-performance hybrid and advanced tokamak discharges. Boronizations were completed early in both campaigns due to preceding entry vents. Over the 3-month duration of each campaign, a database of edge and core impurity emission and fueling/exhaust rates from many hybrid discharges was developed that demonstrated little secular change over 7000 plasma-seconds of operations. After 6000 s, a set of seven sequential hybrid discharges was executed with no between-shot helium glow-discharge cleaning. While small effects on fueling and exhaust are observed, density remains controlled and fusion performance is held constant. These results, obtained with the all graphite wall on DIII-D, are promising for the next generation of superconducting, long-pulse tokamaks, where studies of stationary, high performance will be of great interest.
AB - During the 2006 and 2007 DIII-D experimental campaigns the rate of boronization events was reduced significantly from past campaigns with no detrimental effects on discharges, including high-performance hybrid and advanced tokamak discharges. Boronizations were completed early in both campaigns due to preceding entry vents. Over the 3-month duration of each campaign, a database of edge and core impurity emission and fueling/exhaust rates from many hybrid discharges was developed that demonstrated little secular change over 7000 plasma-seconds of operations. After 6000 s, a set of seven sequential hybrid discharges was executed with no between-shot helium glow-discharge cleaning. While small effects on fueling and exhaust are observed, density remains controlled and fusion performance is held constant. These results, obtained with the all graphite wall on DIII-D, are promising for the next generation of superconducting, long-pulse tokamaks, where studies of stationary, high performance will be of great interest.
UR - http://www.scopus.com/inward/record.url?scp=67349250837&partnerID=8YFLogxK
U2 - 10.1016/j.jnucmat.2009.01.141
DO - 10.1016/j.jnucmat.2009.01.141
M3 - Article
AN - SCOPUS:67349250837
SN - 0022-3115
VL - 390-391
SP - 461
EP - 464
JO - Journal of Nuclear Materials
JF - Journal of Nuclear Materials
IS - 1
ER -