Chlorine Trifluoride Exposure Testing and Oxidizer Reactivity Results

    Volume 6, Issue 9 (October 2009)

    ISSN: 1546-962X

    CODEN: JAIOAD

    Published Online: 8 September 2009

    Page Count: 16


    VanOmmeren, James
    Process Safety Engineering Associate, Air Products and Chemicals, Inc., Allentown, PA

    (Received 30 October 2008; accepted 31 July 2009)

    Abstract

    Chlorine trifluoride (ClF3) was first synthesized in the 1930s and is one of the most oxidizing and reactive halogen fluorides known. In fact, with the exception of elemental fluorine, ClF3 may represent one of the most oxidizing and reactive materials in existence. Active research and commercial use of ClF3 began in the late 1940s, and ClF3 has been utilized in such diverse applications as military weapons usage, rocket fuel oxidant, nuclear fuels processing, oil well rod cutting, mineral analysis, and electronics manufacturing equipment cleaning. Such fluoride compounds present significant toxic, oxidizing, highly reactive, and environmental challenges in their manufacture, delivery, customer use, handling, disposal treatment, and emergency response. Air Products has been the primary manufacturer of ClF3 in North America for about 40 years, and ClF3 represents one of the strongest oxidizing and highest reactivity materials that Air Products handles worldwide. However, little information has been available in public literature or the industry regarding its oxidizing potential and reactivity strength with specific materials it may routinely or accidentally come in contact with. Therefore, Air Products conducted extensive release testing to expose various materials of construction (metals, plastics, and elastomers), building materials, personal protective equipment, and other common materials to both vapor and liquid phase releases of ClF3. This paper discusses the synthesis, hazards, varied uses, and major incidents involving ClF3. For example, one major ClF3 liquid spill accident from the 1960s is discussed where an eyewitness stated, “The concrete was on fire!” The paper details controlled release exposure testing methods Air Products employed, results, and lessons learned regarding improved handling and usage recommendations for ClF3 suppliers and customers. For example, a significant potential hazard was discovered regarding use of a safety shower if a person's clothing was exposed to ClF3 liquid, which caused Air Products to change their Material Safety Data Sheet and Product Safety hazards training.


    Paper ID: JAI102215

    DOI: 10.1520/JAI102215

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    Author
    Title Chlorine Trifluoride Exposure Testing and Oxidizer Reactivity Results
    Symposium Twelfth International Symposium on Flammability and Sensitivity of Materials in Oxygen-Enriched Atmospheres, 2009-10-09
    Committee G04