Citation:

Hepler, K., M. Kaminski, W. Jolin, AND M. Magnuson. Decontamination of urban surfaces contaminated with radioactive materials and consequent onsite recycling of the waste water. Environmental Technology & Innovation. Elsevier B.V., Amsterdam, Netherlands, 21:101177, (2021). https://doi.org/10.1016/j.eti.2020.101177

Impact/Purpose:

Enhancing rapid remediation strategies is paramount to recovery after a large-scale nuclear contamination event in an urban environment. Some current strategies recommend readily available equipment, materials, and facilities to expedite recovery. For example, applying pressurized water to contaminated surfaces may effectively remove radioactive contamination. In this study, a commercial power washer removes soluble forms of 152Eu3+, 85Sr2+, and 137Cs+ contamination from common, porous building materials, and computer simulations characterize the recycling of the resultant contaminated wash water. Pressure washing the porous building materials at spray conditions typical with Do-It-Yourself units improved decontamination factors (DFs) for 152Eu compared to low-pressure application of tap water (majority of 2-tailed t-test p-values 0.98) in sensitivity analyses between most bed configuration variables and bed performance variables, permitting flexible, ad-hoc bed design. The experimental and simulation results lead to estimates of the remediation rate and waste generated after cleaning 250m2 of cesium-contaminated concrete from the combined deployment of a power washer and two different mobile treatment beds. The first treatment bed was designed to reduce treatment time and processed 1900 L of wash solution in 70 minutes using 880 kg of clay/sand infill material. Designed to reduce the solid waste generated, the second bed processed the same solution volume in 1040 minutes (17 hours) using 170 kg of clay/sand infill material. The results of this analysis warrant further investigation of power washing with recycled salt solution as an effective rapid decontamination method with manageable waste.

Description:

Enhancing rapid remediation strategies is paramount for recovery after a large-scale nuclear contamination event in an urban environment. Some current strategies recommend use of readily available equipment, materials, and facilities to expedite recovery. For example, applying pressurized water to contaminated surfaces may effectively remove radioactive contamination. In this study, a commercial power washer removes soluble forms of 152Eu3+, 85Sr2+, and 137Cs+ contamination from common porous building materials, and computer simulations characterize the recycling of the resultant contaminated wash water. Pressure washing the porous building materials under spray conditions typical with do-it-yourself units improved decontamination factors (DFs) for 152Eu compared to low-pressure application of tap water (majority of two-tailed t-test p-values < 0.1), but pressure did not improve DFs for 137Cs or 85Sr. For both pressurized and low-pressure applications, adding potassium ions (K+) to promote ion exchange reactions produced significantly higher DFs for tested radionuclides on asphalt, brick, and concrete. The resultant contaminated wash water can be processed through self-prepared chemical filtration beds of clay and sand. Modeled in a prior study, the beds yielded linear trends (R2 > 0.98) in sensitivity analyses between most bed configuration variables and bed performance variables, permitting flexible ad-hoc bed design. The experimental and simulation results led to estimates of the remediation rate and waste generated after cleaning 250 m2 of cesium-contaminated concrete from the combined deployment of a power washer and two different mobile treatment beds. The first treatment bed was designed to reduce treatment time and processed 1900 L of wash solution in 70 min using 880 kg of clay/sand infill material. Designed to reduce the solid waste generated, the second bed processed the same solution volume in 1040 min (17 h) using 170 kg of clay/sand infill material. The results of this analysis warrant further investigation of power washing with recycled salt solution as an effective rapid decontamination method with manageable waste.

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