Add to ORKGThe description of containment iodine behavior in reactor accident sequences requires an understanding of iodine volatility effects, deposition and revaporization/resuspension (from surfaces and aerosols), chemical changes between species, and mass transport. The experimental work in this program has largely centered on the interactions of iodine in or with water pools. The formation of volatile iodine, as I/sub 2/ or organic iodides, is primarily dependent on radiation and solution pH. Lower pH results in increased formation of volatile iodine species; thus, for example, a pH of 3.05 resulted in a conversion of I/sup -/ to I/sub 2/ that was more than two orders of magnitude greater than tests run at pH 6.1 or 6.8. The formation or organic ...
For many countries nuclear fission is an important part of their energy portfolio. However, a great ...
The 5th FWP EURSAFE Project highlighted iodine chemistry in the containment as one of the issues req...
International audienceIn case of a severe accident, organic iodides (RI) are one of the volatile iod...
Calculated data from seven severe accident sequences in light water reactor plants were used to asse...
grantor: University of TorontoThe impact of organic compounds on iodine behaviour was inve...
Iodine is a main fission product of the fuel generated during power operation in nuclear power plant...
International audienceThe Phebus Fission Product (FP) Program studies key phenomena of severe accide...
The International Phebus Fission Product programme, initiated in 1988 and performed by the French “I...
The International Phebus Fission Product programme, initiated in 1988 and performed by the French "I...
The International Phebus Fission Product programme, initiated in 1988 and performed by the French In...
Amongst the fission products that can be released in the environment during a severe accident, iodin...
For many countries nuclear fission is an important part of their energy portfolio. However, a great ...
The 5th FWP EURSAFE Project highlighted iodine chemistry in the containment as one of the issues req...
International audienceIn case of a severe accident, organic iodides (RI) are one of the volatile iod...
Calculated data from seven severe accident sequences in light water reactor plants were used to asse...
grantor: University of TorontoThe impact of organic compounds on iodine behaviour was inve...
Iodine is a main fission product of the fuel generated during power operation in nuclear power plant...
International audienceThe Phebus Fission Product (FP) Program studies key phenomena of severe accide...
The International Phebus Fission Product programme, initiated in 1988 and performed by the French “I...
The International Phebus Fission Product programme, initiated in 1988 and performed by the French "I...
The International Phebus Fission Product programme, initiated in 1988 and performed by the French In...
Amongst the fission products that can be released in the environment during a severe accident, iodin...
For many countries nuclear fission is an important part of their energy portfolio. However, a great ...
The 5th FWP EURSAFE Project highlighted iodine chemistry in the containment as one of the issues req...
International audienceIn case of a severe accident, organic iodides (RI) are one of the volatile iod...