Conditioning of the graphite bumper limiter for enhanced confinement discharges in TFTR

Abstract: A strong pumpi.ig effect has been observed with plasma operation on the toroidal graphite bumper limiter on TFTR. The pumping effect was induced by conditioning the limiter with a short series (10-20) of low density deuteriumor heliura-iniciated discharges. The density decay constant (T) for gasfueled ohmic discharges was reduced from T > 10 s before conditioning to a minimum value of t = 0.15 s after conditioning, corresponding to a reduction in the global recycling coefficient from-1002 to less thin 502. Coi… Show more

“…Helium discharge cleaning [17] has been routinely used to recover supershots after TFTR operation with different plasma types and, as well, helium discharge cleaning sequences are often interspersed into supershot campaigns. H'owever, the helium discharge cleaning (Fig.…”

Experiments on TFTR supershot plasmas

“…Helium discharge cleaning [17] has been routinely used to recover supershots after TFTR operation with different plasma types and, as well, helium discharge cleaning sequences are often interspersed into supershot campaigns. H'owever, the helium discharge cleaning (Fig.…”

Experiments on TFTR supershot plasmas

“…Previous experiments in fusion plasma devices 1 have used helium discharges to "condition" the wall and internal components by obtaining wall pumping, which subsequently led to well-controlled tokamak discharges. A major fraction of the surface area of the wall and internal components consisted of graphite; specifically, POCO AXF-5Q graphite was used in the Tokamak Fusion Test Reactor (TFTR).…”

Helium-ion-induced release of hydrogen from graphite

“…The Supershot plasmas were obtained by first running a series of helium plasmas in order to deplete the carbon limiter of trapped deute, ium. This resulted in a relatively low recycling limiting surface, a prerequisite for obtaining the improved confinement of the Supershot [ 14].…”

Helium, iron and electron particle transport and energy transport studies on the TFTR tokamak