工业水处理
工業水處理
공업수처리
INDUSTRIAL WATER TREATMENT
2014年
9期
36-39
,共4页
江野立%王柏俊%朱兆连%李爱民
江野立%王柏俊%硃兆連%李愛民
강야립%왕백준%주조련%리애민
电化学还原%电化学氧化%甲苯硝化废水%急性生物毒性
電化學還原%電化學氧化%甲苯硝化廢水%急性生物毒性
전화학환원%전화학양화%갑분초화폐수%급성생물독성
electro-reduction%electro-oxidation%toluene nitrification wastewater%acute toxicity
对电化学还原-氧化降解甲苯硝化废水进行了研究,考察了不同电流密度和反应时间对降解效果的影响,并且考察了出水的可生化性以及生物毒性的变化。结果表明:在最佳电流密度20 mA/cm2,最佳处理时间4 h下,硝化废水的SUVA (废水芳香性指标)去除率可以达到56.4%,COD 去除率为26.6%,B/C 由原水的0.115提高到0.435,急性生物毒性也有明显降低,TU值由原先的285.7降低为41.7。说明电化学还原-氧化法对硝化废水可生化性的提高,毒性的降低是有显著作用的。
對電化學還原-氧化降解甲苯硝化廢水進行瞭研究,攷察瞭不同電流密度和反應時間對降解效果的影響,併且攷察瞭齣水的可生化性以及生物毒性的變化。結果錶明:在最佳電流密度20 mA/cm2,最佳處理時間4 h下,硝化廢水的SUVA (廢水芳香性指標)去除率可以達到56.4%,COD 去除率為26.6%,B/C 由原水的0.115提高到0.435,急性生物毒性也有明顯降低,TU值由原先的285.7降低為41.7。說明電化學還原-氧化法對硝化廢水可生化性的提高,毒性的降低是有顯著作用的。
대전화학환원-양화강해갑분초화폐수진행료연구,고찰료불동전류밀도화반응시간대강해효과적영향,병차고찰료출수적가생화성이급생물독성적변화。결과표명:재최가전류밀도20 mA/cm2,최가처리시간4 h하,초화폐수적SUVA (폐수방향성지표)거제솔가이체도56.4%,COD 거제솔위26.6%,B/C 유원수적0.115제고도0.435,급성생물독성야유명현강저,TU치유원선적285.7강저위41.7。설명전화학환원-양화법대초화폐수가생화성적제고,독성적강저시유현저작용적。
The degradation of toluene nitrification wastew ater by electro-catalytic reduction-electro-oxidation process has been studied. The effects of different current density and reaction time on the treatment result ,the effluent biodegradability and changes in biological toxicity are investigated. The results show that under the following optimum conditions:current density is 20 mA/cm2,and reaction time is 4 h,the SUVA removing rate of nitrification wastewater reaches 56.4%,the removing rate of COD reaches 26.6%,the B/C increases from 0.115 to 0.435,and the value of TU is reduced from the original 285.7 to 41.7 ,indicating that electrochemical reduction-electro-oxidation process has remarkable effects on the improvement of wastewater biodegradability and the reduction of toxicity.
