Raman spectroscopic study of the aging and nitration of actinide processing anion-exchange resins in concentrated nitric

Degradation of two types of anion exchange resins, Dowex 11 and Reillex HPQ , from the action of concentrated nitric acid (4 to 12 M) and radiolysis [f rom depleted uranium as UO22+ nitrate species and Pu-239 as Pu(IV) nitrate species] was followed as a function of time with Raman vibrational spectros copy. Elevated temperatures (similar to 50 degrees C) were used in the abse nce of actinide metal loading to simulate longer exposures of the resin to a HNO3 process stream and waste storage conditions. In the absence of actin ide loading, only minor changes in the Dowex resin at acid concentrations l ess than or equal to 10 M were observed, while at 12 M acid concentration, the emergence of a Raman peak at 1345 cm(-1) indicates the addition of nitr o functional groups to the resin, Similar studies with the Reillex resin sh ow it to be more resistant to nitric acid attack at all acid concentrations . Incorporation of weakly radioactive depleted uranium as the UO22+ nitrate species to the ion-exchange sites of Dowex 11 under differing nitric acid concentrations (6 to 12 M) at room temperature showed no Raman evidence of resin degradation or nitration, even after several hundred days of contact. In contrast, Raman spectra for Dowex 11 in the presence of Pu-239 as Pu(IV ) nitrate species reveal numerous changes indicating resin alterations, inc luding a new mode at 1345 cm(-1) consistent with a Pu(IV)-nitrate catalyzed addition of nitro groups to the resin backbone.