논문 상세보기
고도산화와 정밀여과의 혼성공법을 이용한 유기화학물질의 분해 및 제거분석에 관한 연구 - 먹는 물을 중심으로 - KCI 등재
A Study on Dissolve and Remove Analysis of Organic Chemicals Using a Mixed Method of Advanced Oxidation and Micro Filtering - Water Drinking Point -
먹는 물 내에 존재하는 발암원인으로 의심되는 유기화학물질을 재래식 정수처리방법으로 제거한다는 것은 불가능하다. 이들을 AOP산화 & M/F membrane 혼성공정법을 이용하여 목적하는 처리수로 처리하고자 지하수를 반응조에 유효용량으로 유입하고 유기화학물질을 인위적으로 투입 혼합하여 충분히 희석시키고 이것을 효율적으로 처리하기 위해 최적운전조건을 도출하였다. 유기 화학물질 중 VOCs는 페놀과 톨루엔을 그리고 농약은 파라치온, 다이아지논과 카바닐을 대상으로 조사하였다. 실험은 각각 분류별 단일용액과 혼합용액으로 수행하였으며, 실험결과 충분한 분해 및 제거를 위한 운전조건은 H2O2는 150 mL로 정량 주입하고, pH는 5.5~6.0, 온도는 12~16℃로 일정하게 유지하고, 용존오존량은 5.0 mg/L이상, 반응시간은 30~40분이 최적 조건이었으며 그리고 같은 반응기 내 분리막의 사용은 0.45 μm 공경크기의 M/F membrane을 이용하여 대량의 음용수를 얻기 위한 결정이었다.
It is impossible to remove toxic organic substances that are recognized as a cancer caused suspicious element in drinking water using the conventional water purification method. This study introduces groundwater into a reaction chamber as an effective amount of water to process this water using a mixed method of AOP oxidation and M/F membrane and purifies it as a desirable level by artificially mixing such toxic substances in order to effectively process the water. Based on this fact, this study configures an optimal operation condition. The VOCs existed in toxic substances was investigated as a term of phenol and toluene, and agricultural chemicals were also investigated as a term of parathion, diazinon and carbaryl. The experiment applied in this study was performed using a single and composite soolution. In the operation condition applied to fully dissolve and remove such substances, the amount of H2O2 injected in the process was 150 mL of a fixed quantity, the value of pH was configured as 5.5~6.0, the temperature was controlled as a range of 12~16℃, the dissolved amount of ozone was applied more than 5.0 mg/L, the reaction time was determined as an optimal condition, such as 30~40 minutes, and the segregation membrane in the same reactor was determined for acquire water drinking of large quantity using a pore size of 0.45 μm M/F membrane.
