Article ID Journal Published Year Pages File Type
1882785 Radiation Physics and Chemistry 2011 9 Pages PDF
Abstract

Generation of NO2− and NO3− in aqueous phase within high ionizing radiation zone is normal phenomena. Their formation mechanisms, and controls still remain a challenge with reference to creation of corrosive environment. Nitrogen in such system relates mainly to air ingress, and from added nitrogen compounds, which are used to control pH and dissolved oxygen. Under radiation environment these compounds receive low to high doses, which affect the compounds' subsequent aqueous chemistry, leading to NO2−/NO3− formation. In γ-radiolysis of N2-water, formation of NO3− takes place both in gas and liquid phases reactions wherein OH remains a significant contributor. On the other hand, in aerated aqueous ammonia/azide radiolysis, NO2− was generated following different mechanisms. With this diverse chemical changes, our objective was to analyze the data generated so far on nitrogen, and its specific compounds in aqueous media for systematic understanding and for further growth in the subject.

Related Topics
Physical Sciences and Engineering Physics and Astronomy Radiation
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