Sökning: "Iodine source term"
Visar resultat 1 - 5 av 6 avhandlingar innehållade orden Iodine source term.
1. The chemistry of organic iodides under severe nuclear accident conditions in LWRs
Sammanfattning : For many countries nuclear fission is an important part of their energy portfolio. However, a great concern is the occurrence of nuclear reactor accidents, which can result in the emission of radioactivity into the environment. LÄS MER
2. Formation, partitioning and interactions of organic iodides under severe nuclear accident conditions
Sammanfattning : During severe nuclear reactor accidents such as Chernobyl or Fukushima large amounts of radioactive iodine can be released in form of inorganic and organic iodine species into the environment. Volatile radioactive iodine species are harmful to human health when inhaled. LÄS MER
3. Tellurium Behavior and Management in the Liquid Phases in the Containment During a Severe Nuclear Reactor Accident
Sammanfattning : No industry is immune to accidents; however, the consequences and the probability are the parameters to consider when assessing the risks. When considering nuclear power, two of the highest-level accidents have occurred during the course of the commercial use of nuclear energy. LÄS MER
4. Mobilization and Management of Tellurium in Severe Accident Scenarios
Sammanfattning : Safety is one of the highest priorities in any industry. In the nuclear industry, safety is in the essence since in case of a nuclear accident, the consequences can be long-lasting, hazardous, and devastating to the public, environment, and the industry. LÄS MER
5. A Chemical Perspective on the Tellurium Source Term in the Context of Severe Nuclear Power Plant Accidents
Sammanfattning : In the event of a severe nuclear accident, one of the biggest concerns is the release of radioactive nuclides. Typically, the most volatile is likely to be released. One that is considered among the most volatile is tellurium. Additionally, health implications towards the public by tellurium can be by itself or the decay product iodine. LÄS MER