Removal of Phenol Loaded with Activated Carbon by Potentiostatic Method

정전위전해에 의한 활성탄에 함유된 페놀 제거

Air pollutants, phenol was generated in case of thermal regeneration of used activated carbon loaded with phenol and because of this problem, removal process of phenol were studied. Electrolytic oxidation of samples, used S.company granular activated carbon (WS-GAC), used C.company granular activated carbon (WC-GAC) and used L.company granular activated carbon (WL-GAC) loaded with phenol carried out by potentiostatic method in this study. In case of experiment was to come into operation in condition of samples containing 100 mg/g phenol, supporting electrolyte was 1.0% sodium chloride solution, Ti-Ir (10$\times$10$\textrm{cm}^2$) electrode and electrode distance was 2 cm, current density was $1.25 A/dm^2$, Obtained from the results of electrolytic oxidation experiments were not detected residual phenol. And then we knew about reaction time of electrolytic oxidation, current density, concentration of supporting electrolyte and electrode and electrode distance were 60 minutes, 1.25 A/dm$^2$, 1.0%, 2 cm.

페놀을 함유한 폐 활성탄의 가열 재생시 대기 오염물인 페놀이 생성되어 환경을 오염시키므로 발생하는 페놀 제거에 대한 검토가 필요하다 본 연구에서 실험에 사용하여 페놀을 함유한 S.회사 활성탄(WS-GAC), C.회사 활성탄(WC-GAC), L.회사 활성탄(UL-GAC)의 전해산화는 정전위 전해방식으로 실험하였다. 시료에 함유된 페놀농도는 100 rng/g, 지지 전해질은 1.0% 염화나트륨 용액, Ti-Ir(10$\times$10$ extrm{cm}^2$)전극 간격은 2 cm,전류밀도는 $1.25 A/dm^2$인 조건에서 실험이 이루워졌을 경우 전해 산화 실험에서 얻은 결과 페놀의 잔류물은 검출되지 않았다. 그러므로 전해산화 반응에서 빈응시간, 전류밀도, 지지전해질의 농도, 전극간의 거리가 60 minutes, 1.25 $A/dm^2$, 1.0%, 2 cm 임을 알 수 있었다.