北京工业大学学报
北京工業大學學報
북경공업대학학보
JOURNAL OF BEIJING POLYTECHNIC UNIVERSITY
2015年
6期
919-925
,共7页
郝瑞霞%王建超%孟成成%任晓克%王润众%赵文莉
郝瑞霞%王建超%孟成成%任曉剋%王潤衆%趙文莉
학서하%왕건초%맹성성%임효극%왕윤음%조문리
电流%三维电极生物膜反应器%氢自养反硝化%硫自养反硝化%反硝化细菌
電流%三維電極生物膜反應器%氫自養反硝化%硫自養反硝化%反硝化細菌
전류%삼유전겁생물막반응기%경자양반초화%류자양반초화%반초화세균
electric current%3-dimensional biofilm-electrode reactor%hydrogen autotrophic denitrification%sulfur autotrophic denitrification%denitrifying bacteria
针对污水处理厂尾水TN去除问题,研究了电流对三维电极生物膜耦合硫自养脱氮工艺(3DBER-S)脱氮性能及菌群结构的影响.运行结果表明:在进水pH为7.0~7.5,ρ(NO3--N)为35 mg/L,ρ(C)/ρ(N)为1,HRT为12 h条件下,电流由60 mA增大到800 mA,NO3--N和TN去除率变化不明显,分别稳定在87%和76%左右;随电流增大,体系氢自养反硝化作用所占比例由22.8%逐渐上升到74.4%.基于nirS基因的克隆文库结果表明:3DBER-S中与异养、硫自养和氢自养反硝化功能菌属相似的细菌均占有一定比例;随电流增大,与氢自养反硝化功能菌属相似的细菌所占比例增大.该体系中存在异养、氢自养和硫自养反硝化协同去除硝酸盐氮的作用,维持了稳定高效的脱氮效果,且增大电流利于氢自养反硝化作用的增强.
針對汙水處理廠尾水TN去除問題,研究瞭電流對三維電極生物膜耦閤硫自養脫氮工藝(3DBER-S)脫氮性能及菌群結構的影響.運行結果錶明:在進水pH為7.0~7.5,ρ(NO3--N)為35 mg/L,ρ(C)/ρ(N)為1,HRT為12 h條件下,電流由60 mA增大到800 mA,NO3--N和TN去除率變化不明顯,分彆穩定在87%和76%左右;隨電流增大,體繫氫自養反硝化作用所佔比例由22.8%逐漸上升到74.4%.基于nirS基因的剋隆文庫結果錶明:3DBER-S中與異養、硫自養和氫自養反硝化功能菌屬相似的細菌均佔有一定比例;隨電流增大,與氫自養反硝化功能菌屬相似的細菌所佔比例增大.該體繫中存在異養、氫自養和硫自養反硝化協同去除硝痠鹽氮的作用,維持瞭穩定高效的脫氮效果,且增大電流利于氫自養反硝化作用的增彊.
침대오수처리엄미수TN거제문제,연구료전류대삼유전겁생물막우합류자양탈담공예(3DBER-S)탈담성능급균군결구적영향.운행결과표명:재진수pH위7.0~7.5,ρ(NO3--N)위35 mg/L,ρ(C)/ρ(N)위1,HRT위12 h조건하,전류유60 mA증대도800 mA,NO3--N화TN거제솔변화불명현,분별은정재87%화76%좌우;수전류증대,체계경자양반초화작용소점비례유22.8%축점상승도74.4%.기우nirS기인적극륭문고결과표명:3DBER-S중여이양、류자양화경자양반초화공능균속상사적세균균점유일정비례;수전류증대,여경자양반초화공능균속상사적세균소점비례증대.해체계중존재이양、경자양화류자양반초화협동거제초산염담적작용,유지료은정고효적탈담효과,차증대전류리우경자양반초화작용적증강.
To strengthen the removal of TN for wastewater treatment plant ( WWTP ) effluent, the performance and bacterial community of a coupling 3-dimensional biofilm-electrode with sulfur autotrophic denitrification technology (3DBER-S) were investigated at different electric current conditions. The operating result indicates that there are no significant impacts of electric current on denitrification performance in 3DBER-S. When electric current increases from 60 to 800 mA at a HRT of 12 h in 3DBER-S, the proportion of hydrogen autotrophic denitrification process increases from 22. 8% to 74. 4%. An average NO3--N and TN removal rate of 87% and 76% respectively is obtained atρ( COD)/ρ( TN) (ρ( C)/ρ( N) ) ratio of 1 and NO3--N concentration of 35 mg/L as well as pH=7. 0-7. 5 in the influent. The nirS gene clone library suggests that the bacteria similar to heterotrophic, hydrogen or sulfur autotrophic denitrifying bacteria occupy a certain proportion respectively in 3DBER-S, and the proportion of the bacteria similar to hydrogen autotrophic denitrifying bacteria increases with electric current increasing. It illustrates that there is a composite among heterotrophic, hydrogen and sulfur autotrophic denitrification process leading to a stable and high-performance nitrogen removal in 3DBER-S, and the increase of electric current contributes to hydrogen autotrophic denitrification.