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Correlation of rates of tritium migration through porous concrete

Journal Article · · Fusion Science and Technology
DOI:https://doi.org/10.13182/FST14-T25· OSTI ID:22429712
; ;  [1]; ; ; ;  [2]
  1. Kyushu University, Fukuoka (Japan)
  2. JAEA-TPL, Muramatsu, Tokai-mura (Japan)
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In a nuclear facility when tritium leaks from a glovebox to room accidentally, an atmosphere detritiation system (ADS) starts operating, and HTO released is recovered by ADS. ADS starts when tritium activity in air becomes higher than its controlled level. Before ADS operates, the laboratory walls are the final enclosure facing tritium and are usually made of porous concrete coated with a hydrophobic paint. In the present study, previous data on the diffusivity and adsorption coefficient of concrete and paints are reviewed. Tritium penetrates and migrates into concrete by following 3 ways. First, gaseous HT or T{sub 2} easily penetrates into porous concrete. Its diffusivity is almost equal to that of H{sub 2}. When a gaseous molecule diffuses through pores with a smaller diameter than a mean free path, its migration rate is described by the Knudsen diffusion formula. The second mechanism is H{sub 2}O vapor diffusion in pores. Concrete holds a lot of structural water. Therefore, H{sub 2}O or HTO vapor can diffuse inside concrete pores along with adsorption-desorption and isotopic exchange with structural water, which is the third mechanism. Literature shows that the diffusivity of HTO through the epoxy-resin paint is determined as D(HTO)=1.0*10{sup -16} m{sup 2}/s. We have used this data to set a model and we have applied it to estimate residual tritium in laboratory walls. We have considered 2 accidental cases and a normal case: first, ADS starts operating 1 hour after 100 Ci HTO is released in the room, secondly, ADS starts 24 hours after 100 Ci HTO release and thirdly, when the walls are exposed to HTO for 10 years of normal operation. It appears that the immediate start up of ADS is indispensable for safety.
OSTI ID:
22429712
Journal Information:
Fusion Science and Technology, Journal Name: Fusion Science and Technology Journal Issue: 2 Vol. 67; ISSN 1536-1055
Country of Publication:
United States
Language:
English

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Related Subjects

22 GENERAL STUDIES OF NUCLEAR REACTORS
ADSORPTION
CONCRETES
DIFFUSION
EPOXIDES
ISOTOPIC EXCHANGE
LEAKS
NUCLEAR FACILITIES
PAINTS
POROUS MATERIALS
REACTOR OPERATION
REACTOR SAFETY
TRITIUM
TRITIUM OXIDES
WATER VAPOR