Modelling gas release event behaviour in hazardous waste tanks |
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Authors: | Dale N. Anderson Barry C. Arnold |
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Affiliation: | (1) Pacific Northwest National Laboratory, MSIN K5-12, PO Box 999, 99352 Richland, WA, USA;(2) Department of Statistics, University of California, 92521 Riverside, CA, USA |
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Abstract: | Certain radioactive waste storage tanks at the United States Department of Energy Hanford facilities continuously generate gases as a result of radiolysis and chemical reactions. The congealed sludge in these tanks traps the gases beneath it and causes the level of the waste within the tanks to rise. The waste level continues to rise until the sludge loses its buoyancy and rolls over, changing places with fluid on top. During a rollover, the trapped gases are released, resulting in a sudden drop in the waste level. This is known as a gas release event (GRE). After a GRE, the waste re-congeals and gas again accumulates, leading to another GRE. We are interested in the time between consecutive GREs. Understanding the probabilistic behaviour of the time between consecutive GREs is important because the hydrogen and nitrous oxide gases released during a GRE are flammable and the ammonia that is released is a health risk. From a safety perspective, activity around such waste tanks should be halted when a GRE is imminent. With a credible probability model for the time between consecutive GREs, we can establish time windows in which waste tank research and maintenance activities can be safely performed. We discuss the application of non-linear time series models to this problem. |
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Keywords: | Hanford nuclear waste safety time-series |
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