Publications
HOME > Achievement > Publications

NEL
Achievement

Á¦¸ñ Removal of Radioactive Cesium in Secondary Wastewater after Soil-washing Process (2021)

Removal of Radioactive Cesium in Secondary Wastewater after Soil-washing Process

 

Juhyeok Lee, Jaeeun Kang and Won-Seok Kim

 

J. Korean Soc. Environ. Eng.(KSEE), 42(8), 405-413, 2020

https://doi.org/10.4491/KSEE.2020.42.8.405

ISSN 1225-5025, e-ISSN 2383-7810

 

Objectives

Secondary wastewater is generated as the soil washing process proceeds to restore contaminated soil near the nuclear power plants (NPPs). In this study, we tried to evaluate the possibility of removing radioactive cesium from secondary wastewater through the adsorption process using illite.

Methods

To treat radioactive cesium present in wastewater, as an adsorbent, we used illite collected from Yeongdong, Chungbuk, and weathering illite artificially weathered by high temperature and acid treatment (60¡É, 0.01 M HCl). Before and after weathering, the adsorption rate of illite at low concentrations of cesium and the desorption rate of adsorbents were compared and evaluated using a 1.5 ppm of competitive potassium ion similar to that of groundwater.

Results and Discussion 

When the illite was artificially weathered, the amount of frayed edge sites increased as the interlayer ions in the illite eluted. As a result of the adsorption and desorption experiments, it was confirmed that the adsorption rate of weathering illite increased by about 11% in acid condition (pH 3) and about 26% in neutral condition (pH 6.2), and the desorption rate of weathering illite decreased by about 6% in acid and neutral conditions, compared to Yeongdong illite. Yeongdong illite and weathering illite showed higher adsorption rate under neutral condition than acidic condition, because the surface of the illite became negatively charged at high pH so the reactivity with cesium present as a cation increased.

Conclusions

The artificial weathering process has improved the performance of illite as an adsorbent. We expect that weathering illite can be used as an effective adsorbent for the removal of radioactive cesium from NPP.

Keywords

Radioactive Cesium, Illite, Artificial Weathering, Adsorption, Desorption

¹øÈ£ Á¦¸ñ
62 Sorption and mobility of radioactive Ni in Wolsong waste repository site, South Korea (2023)
61 Microstructure and texture analysis of 304 austenitic stainless steel using Bragg edge transmission imaging (2023)
60 Waste acceptance criteria testings of a phosphate-based geopolymer waste form to immobilize radioactive borate waste (2023)
59 Effect of Si/Al molar ratio and curing temperatures on the immobilization of radioactive borate waste in metakaolin-based geopolymer waste form (2023)
58 Estimation of radionuclides leaching characteristics in different sized geopolymer waste forms with simulated spent ion-exchange resin (2023)
57 Potential of indigenous bacteria driven U(VI) reduction under relevant deep geological repository (DGR) conditions (2023)
56 Dissolution Behaviors of PuO2(cr) in Natural Waters (2023)
55 Design and Application of Materials for Sequestration and Immobilization of 99Tc (2023)
54 Evaluating the impact of drying on leaching from a solidified/stabilized waste using a monolithic diffusion model (2023)
53 Acute oral toxicity and bioavailability of uranium and thorium in contaminated soil (2023)
52 Monte Carlo study of an electron-based neutron source for Bragg edge imaging (2023)
51 Tritium separation from radioactive wastewater by hydrogen isotope‒selective exchange of hydrogen‒bonded fluorine (2023)
50 Influence of MnO and ZnO on molybdate crystallization in borosilicate glass (2023)
49 Technetium (Tc)/Rhenium (Re) Solubility and Leaching Behavior from Waste Forms: An Overview (2023)
48 Stability of SrCO3 within composite Portland-slag cement blends (2023)
first prv 1 2 3 4 5 next end