Wilk's Method Based Model for Regulations Related to Radiological Impact of Opencast Uranium Mining on Water Reservoirs

摘要

Opencast mining of uranium may lead to natural erosion of ore material due to overland flow of water accumulated from rainfall. The overland flow may ultimately reach the nearby surface water body. This process may lead to the release of ~(238)U and its daughter products into the surface water body. A model is developed to assess the radiological impact of the erosion in terms of dose through drinking water pathway due to ~(238)U and its progeny in the surface water body. The in-growth of progeny is taken into account using Bateman equations. The study brings out the importance of incorporating decay chain transport in the radiological impact assessment studies. It is also observed that ~(210)Po, ~(210)Pb, ~(226)Ra, and ~(230)Th together contribute to about 95.5 % of the total dose. The model is then extended to incorporate the uncertainty associated with the dose due to consumption of the reservoir water by employing Wilk's Method. Such a model can be very useful in establishing regulations related to dose through drinking water pathway around an opencast mine. Wilk's method is computationally less expensive as compared to the exact methods like Monte Carlo method. Wilk's method is used to calculate a value greater than a percentile value for the dose to the public due to ~(238)U and its progeny in the reservoir through drinking water pathway with confidence level β (α/β value). When applied to a hypothetical case using some literature data on surface water bodies, it is found that with increase in the value of a or β, the α/β value in general, shows an increasing trend as expected. Depending upon the nature of the problem under study, one can calculate an α/β value i.e. 95/95 value, 99/95 value etc., and that value can be helpful in establishing the regulatory limiting value. Also, the α/β value can be used to check whether dose due to a particular radioactive release is within the specified limits.