천연광물 흡착제 및 고염기도 PAC를 이용한 용존성 Cs의 처리특성

천연광물 흡착제 및 고염기도 PAC를 이용한 용존성 Cs의 처리특성

This study investigated removal characteristic of soluble Cs in water by RPT (Radioactivity pollutant treatment) with coagulation and sedimentation. The RPT conducted with various chemical and natural coagulants to remove the soluble Cs which consisted pre-adsorption, Sedimentation and post-adsorpti...

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Published in:Daehan hwan'gyeong gonghag hoeji Vol. 39; no. 7; pp. 385 - 390
Main Authors: 김복성(Bokseong Kim), 김영석(Youngsuk Kim), 정윤선(Yoonsuhn Chung), 강성원(Sungwon Kang), 오대민(Daemin Oh), 채호준(Hojun Chae)
Format: Journal Article
Language:Korean
Published: 대한환경공학회 2017
Subjects:
환경공학
Cs
Coagulation-Sedimentation
방사능 흡착
일라이트
제올라이트
Radioactivity adsorption
Illite
세슘
Zeolite
응집-침전
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Summary:This study investigated removal characteristic of soluble Cs in water by RPT (Radioactivity pollutant treatment) with coagulation and sedimentation. The RPT conducted with various chemical and natural coagulants to remove the soluble Cs which consisted pre-adsorption, Sedimentation and post-adsorption. Natural absorbent included Illite and zeolite. Especially, Illite divided LPI (Large Particle Illite) and SPI (Small Particle Illite) by grain size. Also, Chemical coagulants included high basicity PAC (poly aluminum chloride). The adsorbent had a plate structure mainly composed of quartz, albite and muscovite. The surface area were $4.201m^2/g$ and $4.227m^2/g$ and the particle sizes were $197.4-840.9{\mu}m$ and $3.28-53.57{\mu}m$, respectively. The adsorption efficiency of the natural Illite was 82.8% for LPI and 85.6% for SPI. The removal efficiency of turbidity, which was an indirect indicator of adsorbent recovery, was 96.4% and 98.3%, respectively. 응집 침전기술인 방사능 오염물질의 처리장치의 용존성 Cs 처리특성을 평가하였다. 방사능 오염물질 처리장치는 전흡착부, 고형물침전부, 후흡착부로 구성하였다. 흡착제는 천연광물 일라이트를 입자크기에 따라 LPI (Large Particle Illite), SPI (Small Particle Illite)로 구분하여 사용하였고, 응집제는 고염기도 PAC (poly aluminum chloride)을 사용하였다. 흡착제는 판상구조형태로 주로 석영, 조장석, 백운모로 구성되었으며, LPI, SPI의 Surface area는 각각 $4.201m^2/g$, $4.227m^2/g$으로 나타났고 입자크기는 각각 $197.4-840.9{\mu}m$, $3.28-53.57{\mu}m$로 나타났다. 천연광물인 일라이트의 흡착효율은 LPI는 82.8%, SPI는 85.6%로 나타났고 흡착제 회수에 대한 간접적인 지표인 탁도의 제거율은 96.4%, 98.3%로 나타났다.
Bibliography:KISTI1.1003/JNL.JAKO201722965909445
ISSN:1225-5025
2383-7810
DOI:10.4491/KSEE.2017.39.7.385