Validation of a procedure for the analysis of 226Ra in naturally occurring radioactive materials using a liquid scintillation counter

Abstract

An analytical procedure for detecting ²²⁶Ra in naturally occurring radioactive materials (NORMs) using a liquid scintillation counter (LSC) was developed and validated with reference materials (zircon matrix, bauxite matrix, coal fly ash, and phosphogypsum) that represent typical NORMs. The ²²⁶Ra was released from samples by a fusion method and was separated using sulfate-coprecipitation. Next, a ²²²Rn-emanation technique was applied for the determination of ²²⁶Ra. The counting efficiency was 238 ± 8% with glass vials. The recovery for the reference materials was 80 ± 11%. The linearity of the method was tested with different masses of zircon matrix reference materials. Using 15 types of real NORMs, including raw materials and by-products, this LSC method was compared with γ-spectrometry, which had already been validated for ²²⁶Ra analysis. The correlation coefficient for the results from the LSC method and γ-spectrometry was 0.993 ± 0.058.

Keywords: Liquid scintillation counter; Method validation; Naturally occurring radioactive material; Radium-226.