Add to ORKGIonizing radiation from spent nuclear fuel (SNF) can cause radiolytic decomposition of water and generation of hydrogen. Factors affecting hydrogen production include the type of radiation (alpha, gamma, and neutron), the radiation (alpha, gamma, and neutron), the linear energy transfer (LET) rates from the radiation, the water chemistry and dissolved gases, and physical conditions such as temperature and pressure. A review of the mechanisms for the radiolytic generation of hydrogen applicable to breached SNF has been performed. A qualitative evaluation of the potential for generation of hydrogen in the pure water used in water-filled shipping casks at the Savannah River Site (SRS) is made
Gas generation issues, particularly hydrogen, have been an area of concern for the transport and sto...
International audienceWe irradiated samples of zeolites 4A which contained different quantities of w...
The analysis of hydrogen gas generation in radioactive waste containers considers the following area...
In the radioactive slurries and solutions to be processed in the Defense Waste Processing Facility (...
Hydrogen generation from materials in nuclear materials storage is of critical interest due to the p...
Hydrogen from the radiolysis of water by dissolved fission products is stripped from the solution an...
The paper describes the outcomes of the experiments to study hydrogen and gaseous fission products a...
The storage of irradiated fuel is increasing as many installations are approaching their end-life an...
This paper presents results of measurements and predictions of radiolytic hydrogen production rates ...
This report is a summary of experimental results on radiolytic hydrogen yields from tetraphenylborat...
In support of the Salt Disposition team, scoping studies have been performed on the radiolysis of mo...
Assessing the performance of spent (used) nuclear fuel in geological repository requires quantificat...
In the high level waste tanks at the Savannah River Site (SRS), hydrogen is produced continuously by...
A volume of 600 mL of sludge, in 4.1 L sample bottles (Appendix 7.6), will be placed in either a Sup...
In case of a canister failure in a deep bedrock repository for nuclear fuel, the release of radiotox...
Gas generation issues, particularly hydrogen, have been an area of concern for the transport and sto...
International audienceWe irradiated samples of zeolites 4A which contained different quantities of w...
The analysis of hydrogen gas generation in radioactive waste containers considers the following area...
In the radioactive slurries and solutions to be processed in the Defense Waste Processing Facility (...
Hydrogen generation from materials in nuclear materials storage is of critical interest due to the p...
Hydrogen from the radiolysis of water by dissolved fission products is stripped from the solution an...
The paper describes the outcomes of the experiments to study hydrogen and gaseous fission products a...
The storage of irradiated fuel is increasing as many installations are approaching their end-life an...
This paper presents results of measurements and predictions of radiolytic hydrogen production rates ...
This report is a summary of experimental results on radiolytic hydrogen yields from tetraphenylborat...
In support of the Salt Disposition team, scoping studies have been performed on the radiolysis of mo...
Assessing the performance of spent (used) nuclear fuel in geological repository requires quantificat...
In the high level waste tanks at the Savannah River Site (SRS), hydrogen is produced continuously by...
A volume of 600 mL of sludge, in 4.1 L sample bottles (Appendix 7.6), will be placed in either a Sup...
In case of a canister failure in a deep bedrock repository for nuclear fuel, the release of radiotox...
Gas generation issues, particularly hydrogen, have been an area of concern for the transport and sto...
International audienceWe irradiated samples of zeolites 4A which contained different quantities of w...
The analysis of hydrogen gas generation in radioactive waste containers considers the following area...