广州化工
廣州化工
엄주화공
GUANGZHOU CHEMICAL INDUSTRY AND TECHNOLOGY
2015年
11期
114-115,118
,共3页
微生物燃料电池%制药废水%COD 去除
微生物燃料電池%製藥廢水%COD 去除
미생물연료전지%제약폐수%COD 거제
microbial fuel cell%pharmacy wastewater treatment%COD removal efficiency
在模拟废水实验的基础上,对双室无介体微生物燃料电池对制药废水的处理效果进行了研究,并对连续进水条件下的的水力停留时间进行了初步探讨。结果表明,以制药废水作为试验用水时反应器外电路负载两端最高电压可达621 mV;阳极循环伏安曲线显示出明显的氧化还原峰;对制药废水的 COD 降解率最高可达83%;连续进水时最佳水力停留时间为12 h。证实微生物燃料电池可以在降解制药废水的同时产生电能,在制药废水处理领域将有广阔的前景。
在模擬廢水實驗的基礎上,對雙室無介體微生物燃料電池對製藥廢水的處理效果進行瞭研究,併對連續進水條件下的的水力停留時間進行瞭初步探討。結果錶明,以製藥廢水作為試驗用水時反應器外電路負載兩耑最高電壓可達621 mV;暘極循環伏安麯線顯示齣明顯的氧化還原峰;對製藥廢水的 COD 降解率最高可達83%;連續進水時最佳水力停留時間為12 h。證實微生物燃料電池可以在降解製藥廢水的同時產生電能,在製藥廢水處理領域將有廣闊的前景。
재모의폐수실험적기출상,대쌍실무개체미생물연료전지대제약폐수적처리효과진행료연구,병대련속진수조건하적적수력정류시간진행료초보탐토。결과표명,이제약폐수작위시험용수시반응기외전로부재량단최고전압가체621 mV;양겁순배복안곡선현시출명현적양화환원봉;대제약폐수적 COD 강해솔최고가체83%;련속진수시최가수력정류시간위12 h。증실미생물연료전지가이재강해제약폐수적동시산생전능,재제약폐수처리영역장유엄활적전경。
The treatment efficiency of pharmacy wastewater by a mediator-less two-chambered microbial fuel cell was investigated on the base of model wastewater test. The hydraulic retention time under the condition of continuous feed water was also discussed. The results showed that the highest voltage reached 621 mV when pharmacy waste water was used as the substrate solutions, anode circulation current-voltage curves indicated redox peaks, the maximum COD removal efficiency could reach 83% and the best HRT was 12 h. This study proved that microbial fuel could produce electricity while pharmacy wastewater degration, a broad application prospects in the field of wastewater treatment were made.
