The removal of radioactive cobalt, cesium, and iodine in a conventional municipal wastewater treatment plant

Author： Stetar Elisabeth A. Boston Harry L. Larsen Ingvar L. Mobley Michael H.

ISSN： 1061-4303

Source： Water Environment Research, Vol.65, Iss.5, 1993-07, pp. : 630-639

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Abstract

ABSTRACT:A radiotracer study was conducted to determine removal efficiencies for cobalt, cesium, and iodine in a conventional municipal wastewater treatment plant. The study was conducted in a full-scale facility that provides primary treatment through physical settling and secondary treatment using activated sludge. The radiotracers, ⁵⁸Co and ¹³⁴Cs as chlorides, and ¹³¹I as Nal, were equilibrated in raw wastewater and introduced to the treatment system as a pulse in the incoming raw wastewater. Samples of wastewater and sludge were collected and analyzed to quantify primary treatment, secondary treatment, and overall removal efficiencies. Selected samples were filtered to determine the partitioning of the tracers between the solid and liquid phases of the wastewater and sludge throughout the treatment process. In the incoming wastewater, approximately 10% of the ⁵⁸Co, 7% of the ¹³⁴Cs, and 3% of the ^I31I were associated with suspended solids. The suspended tracer fractions decreased across the treatment plant. Primary treatment resulted in the partial removal of the incoming suspended fraction with observed removal efficiencies of 8.1% and 3.0% for ⁵⁸Co and ¹³⁴Cs, respectively, and an estimated removal of 2% for ¹³¹I. Approximately 80% of the radiotracers in the primary treatment sludge were associated with the sludge solids. The affinity of the radiotracers for the activated sludge solids was in the following order: ⁵⁸Co > ¹³⁴Cs > ¹³¹I. Secondary treatment removal efficiencies of 25% and 9.4% were observed for ⁵⁸Co and ¹³⁴Cs, respectively. The secondary treatment removal efficiency for ¹³¹I was estimated to be 2-3%. Overall removal efficiencies were 31%, 12%, and 3-5% for ⁵⁸Co, ¹³⁴Cs, and ¹³¹I, respectively. The remaining fractions of the radiotracers remained within the soluble phase of the wastewater and were discharged in the treatment plant effluent.