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The interaction of iodine with organic material in containment

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Abstract

Organic impurities in containment water, originating from various painted structural surfaces and organic containment materials, could have a significant impact on iodine volatility following an accident. A research program has been designed to determine the impact of organic impurities on iodine volatility under accident conditions. The program consists of experimental, literature and modelling studies on the radiolysis or organic compounds in the aqueous phase, thermal and radiolytic formation and decomposition of organic iodides, dissolution of organic solvents from various painted surfaces into the aqueous phase, and iodine deposition on painted surfaces. The experimental studies consist of bench-scale `separate effects` tests as well as intermediate-scale `integrated effects` in the Radioiodine Test facility. The studies have shown that organic impurities will be found in containment water, arising from the dissolution of organic compounds from various surface paints and that these compounds can potentially have a significant impact on iodine volatility following an accident. The main impact of surface paints will occur through aqueous-phase reactions of the organic compounds that they release to the aqueous phase. Under the radiation conditions expected during an accident, these compounds will react to reduce the pH and dissolved oxygen concentration, consequently increasing the formation of I{sub 2}  More>>
Authors:
Wren, J C; Ball, J M; Glown, G A; Portmann, R; Sanipelli, G G [1] 
  1. Atomic Energy of Canada Ltd., Pinawa, MB (Canada). Whiteshell Labs.
Publication Date:
Dec 01, 1996
Product Type:
Technical Report
Report Number:
PSI-97-02; CONF-9606320-; NEA/CSNI/R(96)-6.
Reference Number:
SCA: 400600; 210000; PA: AIX-28:035841; EDB-97:080941; SN: 97001795159
Resource Relation:
Conference: 4. CSNI workshop on the chemistry of iodine in reactor safety, Wuerenlingen (Switzerland), 10-12 Jun 1996; Other Information: PBD: Dec 1996; Related Information: Is Part Of Proceedings of the 4. CSNI workshop on the chemistry of iodine in reactor safety; Guentay, S. [ed.] [Paul Scherrer Inst. (PSI), Villigen (Switzerland)]; PB: 716 p.
Subject:
40 CHEMISTRY; 21 NUCLEAR POWER REACTORS AND ASSOCIATED PLANTS; IODINE; DEPOSITION; ORGANIC COMPOUNDS; IODIDES; RADIOLYSIS; CONTAINMENT BUILDINGS; DECOMPOSITION; DISSOLUTION; EXPERIMENTAL DATA; OXYGEN; PH VALUE
OSTI ID:
483490
Research Organizations:
Paul Scherrer Inst. (PSI), Villigen (Switzerland)
Country of Origin:
Switzerland
Language:
English
Other Identifying Numbers:
Other: ON: DE97624048; TRN: CH9700210035841
Availability:
INIS; OSTI as DE97624048
Submitting Site:
CHN
Size:
pp. 323-344
Announcement Date:
Jun 26, 1997

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Citation Formats

Wren, J C, Ball, J M, Glown, G A, Portmann, R, and Sanipelli, G G. The interaction of iodine with organic material in containment. Switzerland: N. p., 1996. Web.
Wren, J C, Ball, J M, Glown, G A, Portmann, R, & Sanipelli, G G. The interaction of iodine with organic material in containment. Switzerland.
Wren, J C, Ball, J M, Glown, G A, Portmann, R, and Sanipelli, G G. 1996. "The interaction of iodine with organic material in containment." Switzerland.
@misc{etde_483490,
title = {The interaction of iodine with organic material in containment}
 author = {Wren, J C, Ball, J M, Glown, G A, Portmann, R, and Sanipelli, G G}
 abstractNote = {Organic impurities in containment water, originating from various painted structural surfaces and organic containment materials, could have a significant impact on iodine volatility following an accident. A research program has been designed to determine the impact of organic impurities on iodine volatility under accident conditions. The program consists of experimental, literature and modelling studies on the radiolysis or organic compounds in the aqueous phase, thermal and radiolytic formation and decomposition of organic iodides, dissolution of organic solvents from various painted surfaces into the aqueous phase, and iodine deposition on painted surfaces. The experimental studies consist of bench-scale `separate effects` tests as well as intermediate-scale `integrated effects` in the Radioiodine Test facility. The studies have shown that organic impurities will be found in containment water, arising from the dissolution of organic compounds from various surface paints and that these compounds can potentially have a significant impact on iodine volatility following an accident. The main impact of surface paints will occur through aqueous-phase reactions of the organic compounds that they release to the aqueous phase. Under the radiation conditions expected during an accident, these compounds will react to reduce the pH and dissolved oxygen concentration, consequently increasing the formation of I{sub 2} from I{sup -} that is present in the sump. It appears that the rates of these processes may be controlled by the dissolution kinetics of the organic compounds from the surface coatings. Moreover, the organic compounds may also react thermally and radiolytically with I{sub 2} to form organic iodides in the aqueous phase. Our studies have shown that the formation of organic iodides from soluble organics such as ketones, alcohols and phenols may have more impact on the total iodine volatility than the formation of CH{sub 3}I. (author) 13 figs., 2 tabs., 19 refs.}
 place = {Switzerland}
 year = {1996}
 month = {Dec}
 }