Abstract:
Contamination of water bodies with anthropogenic radionuclides has been of concern with
nuclear weapon testing and nuclear power plant disasters. As water plays an important role
to sustain life, it may affect life when contaminated even in tracer levels. The Department
of Nuclear Science (DNS) has been involved in water analysis for radioisotopes for more
than three decades. The need for technical competence by a certified validation method
became important for the credibility of testing and results generated. With the International
Atomic Energy Agency Analytical Quality Control Service (IAEA-AQCS) providing member
states the opportunity to participate in inter laboratory comparisons, the Department
became a participant in proficiency tests (PTs) for anthropogenic gamma (ɣ ) emitting
radionuclides (51Cr, 54Mn, 57Co, 60Co, 65Zn, 85Sn, 133Ba, 134Cs, 137Cs, 152Eu and 241Am) in
water. Gamma spectra of the prepared sample bottles (diameter, 8.5 cm; height, 9.0 cm)
were measured using a shielded High Purity Germanium Detector (HPGe, Gem 13200;
Ortec). This study reports data for thirteen participated PTs of water during the period 2006
- 2014. PT samples provide results in terms of satisfactory relative bias, precision and z
scores at 95% confidence limit. IAEA evaluate reported results against the acceptance
criteria for accuracy and precision and assign the status “acceptable” when it passes both
criteria. In analyzing similar radionuclides over the years, acceptance of reported results
have increased, with less relative bias and higher precision due to the availability of primary
and secondary standards and improvement of analytical skill. At present, DNS has gained
the competence to determine 51Cr, 54Mn, 60Co, 65Zn, 85Sn, 134Cs, 137Cs and 152Eu in water.
Minimum detection limits (MDL) of the above radionuclides were 5.0, 0.8, 0.8, 1.3, 0.7, 0.8,
0.8 and 3.0 Bq kg-1 respectively. Accurate and precise determination of 57Co (MDL = 0.7
Bq kg-1) and 133Ba (MDL = 1.3 Bq kg-1) are critical in the presence of 152Eu and 214Pb due
to their less resolved energy peaks. DNS has still been unable to get good agreement with
precision for gamma analysis of 241Am.