John J. Parker scite author profile

John J. Parker

3Publications

3Citation Statements Received

16Citation Statements Given

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Affiliations

Princeton Plasma Physics Laboratory, Princeton University

Publications

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Oxidative Tritium Decontamination System

Gentile

Parker

Guttadora

et al.

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Abstract-The Princeton Plasma Physics Laboratory, Tritium Systems Group has developed and fabricated an Oxidative Tritium Decontamination System (OTDS), which is designed to reduce tritium surface contamination on various components and items. The system is configured to introduce gaseous ozone into a reaction chamber containing tritiated items that require a reduction in tritium surface contamination. Tritium surface contamination (on components and items in the reaction chamber) is removed by chemically reacting elemental tritium to tritium oxide via oxidation, while purging the reaction chamber effluent to a gas holding tank or negative pressure HVAC system. Implementing specific concentrations of ozone along with catalytic parameters [1], the system is able to significantly reduce surface tritium contamination on an assortment of expendable and non-expendable items. This paper will present the results of various experimentation involving employment of this system [2].

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Oxidative Decontamination of Tritiated Materials Employing Ozone Gas

Gentile

Parker

Guttadora

2002

Fusion Science and Technology

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The Princeton Plasma Physics Laboratory has developed a process by which to significantly reduce surface and near surface tritium contamination from various materials. The Oxidative Tritium Decontamination System (OTDS) reacts gaseous state ozone (accelerated by presence of catalyst), with tritium entrained/deposited on the surface of components (stainless steel, copper, plastics, ceramics, etc.) for the purpose of activity reduction by means of oxidation-reduction chemistry.

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In-Situ Imaging and Quantification of Tritium Surface Contamination via Coherent Fiber Bundle

Gentile

Parker

Zweben

2002

Fusion Science and Technology

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Princeton Plasma Physics Laboratory (PPPL) has developed a method of imaging tritium on in-situ surfaces for the purpose of real-time data collection. This method expands upon a previous tritium imaging concept, also developed at PPPL.1 Enhancements include an objective lens coupled to the entry aperture of a coherent fiber optic (CFO) bundle, and a relay lens connecting the exit aperture of the fiber bundle to an intensifier tube and a chargecoupled device (CCD) camera.

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John J. Parker

Oxidative Tritium Decontamination System

Oxidative Decontamination of Tritiated Materials Employing Ozone Gas

In-Situ Imaging and Quantification of Tritium Surface Contamination via Coherent Fiber Bundle

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