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.
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