工业水处理
工業水處理
공업수처리
INDUSTRIAL WATER TREATMENT
2001年
4期
14-16
,共3页
活性炭纤维%硝基废水%氯霉素
活性炭纖維%硝基廢水%氯黴素
활성탄섬유%초기폐수%록매소
首次采用一种新型吸附材料——活性炭纤维作为吸附剂,以制药厂氯霉素车间排放的硝基废水为对象,系统研究了活性炭纤维对硝基废水的表观平衡吸附量、动态穿透特性、吸附影响因素以及吸附剂的再生性能。研究表明活性炭纤维处理硝基废水吸附容量大,吸附速度快,具有优异的再生性能,可以替代传统的颗粒状活性炭。
首次採用一種新型吸附材料——活性炭纖維作為吸附劑,以製藥廠氯黴素車間排放的硝基廢水為對象,繫統研究瞭活性炭纖維對硝基廢水的錶觀平衡吸附量、動態穿透特性、吸附影響因素以及吸附劑的再生性能。研究錶明活性炭纖維處理硝基廢水吸附容量大,吸附速度快,具有優異的再生性能,可以替代傳統的顆粒狀活性炭。
수차채용일충신형흡부재료——활성탄섬유작위흡부제,이제약엄록매소차간배방적초기폐수위대상,계통연구료활성탄섬유대초기폐수적표관평형흡부량、동태천투특성、흡부영향인소이급흡부제적재생성능。연구표명활성탄섬유처리초기폐수흡부용량대,흡부속도쾌,구유우이적재생성능,가이체대전통적과립상활성탄。
A new absorbent,activated carbon fiber,has been used to treat nitro-group wastewater discharged from the chloramphenicol production in the pharmaceutical factory for the first time. The parameters of equilibrium adsorption quantity,dynamic breakthrough characteristics,adsorption effect factors and the regeneration character in the process of the treatment are systematically described. The results indicates that the adsorption capacity is large,the adsorption rate is fast,and the regeneration character is excellent. It is seen that the activated carbon fiber could take the place of granular activated carbon.