AVS 45th International Symposium
    Vacuum Technology Division Monday Sessions
       Session VT-MoP

Paper VT-MoP9
Simple Catalytic Cell for Restoring He Leak Detector Sensitivity on Vacuum Systems with High D@sub 2@ Backgrounds*

Monday, November 2, 1998, 5:30 pm, Room Hall A

Session: Vacuum Technology Poster Session
Presenter: J. Busath, General Atomics
Authors: J. Busath, General Atomics
H.K. Chiu, General Atomics
Correspondent: Click to Email
The DIII-D National Fusion Facility at General Atomics focuses on plasma physics and fusion energy science. The DIII-D tokamak is a 35 M@super 3@ toroidal vacuum vessel with over 200 ports for diagnostic instrumentation, cryogenics, microwave heating, and four large neutral beam injectors. Maintaining vacuum in the 10@super -8@ Torr range is crucial for producing high performance plasma discharges. He leak checking the DIII-D tokamak and the neutral beamlines has historically been difficult. D@sub 2@ is used as the fill gas in most plasma discharges. After plasma operations, D@sub 2@ out-gassing from the torus walls and internal beamline components can exceed 10@super -4@ Torr l/s. The mass of D@sub 2@ molecule (4.028 amu) is indistinguishable from that of the He atom (4.003 amu) to a standard mass spectrometer leak detector. High levels of D@sub 2@ reduce leak detector sensitivity and effectively mask the He trace gas signal rendering normal leak checking techniques ineffective. A simple apparatus was developed at GA to address these problems. It consists of a palladium based catalyst cell and associated valves and piping placed in series with the leak detector. This reduces the D@sub 2@ throughput by a factor greater than 10,000, restoring leak detector sensitivity. This paper will briefly discuss the development of the cell, the physical processes involved, the tests performed to quantify and optimize the processes, and the operational results at DIII-D. @FootnoteText@ *Work supported by the U.S. Department of Energy under Contract No. DE-AC03-89ER51114.