Standard Test Method for Determination of Uranium and Plutonium Concentration in Aqueous Solutions Using Hybrid K-Edge Densitometry and X-Ray Fluorescence

Importancia y uso:

5.1 The HKED technique is highly element specific and depends upon a well-known controlled geometry.

5.2 The HKED technique can provide concentration measurements of actinides in solutions with precision typically better than 0.3 % for uranium concentrations >50 g/L and 1 % for plutonium in typical U-Pu solutions for a typical measurement time of 3 × 1000 s (3 replicates, 1000 s live time each) (1).

5.3 For pure plutonium only product solutions, the KED technique can achieve measurement precisions better than 0.3 % for plutonium concentrations >50 g/L for a typical measurement time of 3 × 1000 s.

5.4 For pure uranium only solutions, precisions of better than 0.3 % can be achieved using the KED technique for uranium concentrations >50 g/L, for a typical measurement time of 3 × 3600 s.

5.5 For uranium only or plutonium only solutions of concentrations approximately 1 g/L, assayed using XRF, a measurement precision of 1.0 % has been achieved (1). For solutions of concentration approximately 50 g/L, assayed using XRF, measurement precisions of 0.2 % or better have been achieved. The typical measurement time for stand-alone XRF assay is 3 × 3000 s.

5.6 Quality Control (QC) samples are assayed for a typical measurement time of 3 × 3000 s.

5.7 It is applicable when solutions to be measured are homogeneous with respect to chemical composition.

5.8 Results are typically used for fuel fabrication, process control, quality control, material control and accountancy, and safeguards in nuclear fuel reprocessing plants. Each application can have its own data quality objectives (Guide C1068).

5.9 The HKED instrument may use a single cylindrical vial for both the KED and XRF measurements, or separate sample containers for KED and XRF. The typical values for the path length of the rectangular cuvette and the inner diameter of the cylindrical vial are given in 7.8.

5.10 The transfer of the sample into the HKED system can be accomplished either horizontally by means of a suitably designed sample conveyor system coupled to a shielded glovebox or hot cell facility or vertically through a pneumatic sample transfer system.

5.11 The U and Pu concentrations measured by HKED are dependent on the sample temperature. The analysis software includes a normalization of the measured concentration at the ambient room temperature to a reference temperature of 25 °C. The ambient room temperature is input into the analysis software. HKED has been employed as a rapid alternative to destructive chemical analyses, such as Isotope Dilution Mass Spectroscopy (IDMS) or titration, because there is minimal sample preparation, and precision of HKED is comparable to the precision of such chemical analyses. This is especially useful when high sample throughput is important.

5.12 For the three modes of operation that are possibly, namely, K-Edge only, Hybrid K-Edge/XRF, and Stand-alone XRF, the uncertainty levels that can be achieved for U and U/Pu samples have been established for routine safeguards measurements are described in the ITV (2).

Subcomité:

C26.10

Volúmen:

12.01

Número ICS:

17.240 (Radiation measurements)

Palabras clave:

Hybrid K-Edge; K-Edge Densitometry; X-Ray Fluorescence;