中国有色金属学报
中國有色金屬學報
중국유색금속학보
THE CHINESE JOURNAL OF NONFERROUS METALS
2015年
6期
1713-1720
,共8页
谢水波%陈胜%马华龙%唐振平%曾涛涛%凌辉%吴宇琦
謝水波%陳勝%馬華龍%唐振平%曾濤濤%凌輝%吳宇琦
사수파%진성%마화룡%당진평%증도도%릉휘%오우기
SRB颗粒污泥%U(Ⅵ)%影响因素%稳定性
SRB顆粒汙泥%U(Ⅵ)%影響因素%穩定性
SRB과립오니%U(Ⅵ)%영향인소%은정성
sulfate reducing granular sludge%U(Ⅵ)%influencing factor%stability
探讨U(Ⅵ)初始浓度、COD、SO 42?、Cu2+、Fe0等对硫酸盐还原菌颗粒污泥(SRBGS)去除U(Ⅵ)的影响,讨论其去除U(Ⅵ)的稳定性,并利用XPS分析U(Ⅵ)还原产物的形态特征。结果表明:当COD为300~1500 mg/L时,随着COD浓度的升高,U(Ⅵ)的去除速率加快;SO 42?浓度低于1500 mg/L对U(Ⅵ)的去除有促进作用;Cu2+浓度低于100 mg/L时,U(Ⅵ)还原未受显著影响,但当其增至200 mg/L时,U(Ⅵ)还原受到完全抑制;投加铁粉大大提高了U(Ⅵ)的去除速率,20 h内,U(Ⅵ)的去除率达到100%。SRB颗粒污泥能够长期使用,最佳水力停留时间12.5 h, NO 3?能使已还原的U(Ⅵ)再氧化。XPS分析表明,颗粒污泥表面沉积或吸附了铀,且以U(Ⅳ)为主。
探討U(Ⅵ)初始濃度、COD、SO 42?、Cu2+、Fe0等對硫痠鹽還原菌顆粒汙泥(SRBGS)去除U(Ⅵ)的影響,討論其去除U(Ⅵ)的穩定性,併利用XPS分析U(Ⅵ)還原產物的形態特徵。結果錶明:噹COD為300~1500 mg/L時,隨著COD濃度的升高,U(Ⅵ)的去除速率加快;SO 42?濃度低于1500 mg/L對U(Ⅵ)的去除有促進作用;Cu2+濃度低于100 mg/L時,U(Ⅵ)還原未受顯著影響,但噹其增至200 mg/L時,U(Ⅵ)還原受到完全抑製;投加鐵粉大大提高瞭U(Ⅵ)的去除速率,20 h內,U(Ⅵ)的去除率達到100%。SRB顆粒汙泥能夠長期使用,最佳水力停留時間12.5 h, NO 3?能使已還原的U(Ⅵ)再氧化。XPS分析錶明,顆粒汙泥錶麵沉積或吸附瞭鈾,且以U(Ⅳ)為主。
탐토U(Ⅵ)초시농도、COD、SO 42?、Cu2+、Fe0등대류산염환원균과립오니(SRBGS)거제U(Ⅵ)적영향,토론기거제U(Ⅵ)적은정성,병이용XPS분석U(Ⅵ)환원산물적형태특정。결과표명:당COD위300~1500 mg/L시,수착COD농도적승고,U(Ⅵ)적거제속솔가쾌;SO 42?농도저우1500 mg/L대U(Ⅵ)적거제유촉진작용;Cu2+농도저우100 mg/L시,U(Ⅵ)환원미수현저영향,단당기증지200 mg/L시,U(Ⅵ)환원수도완전억제;투가철분대대제고료U(Ⅵ)적거제속솔,20 h내,U(Ⅵ)적거제솔체도100%。SRB과립오니능구장기사용,최가수력정류시간12.5 h, NO 3?능사이환원적U(Ⅵ)재양화。XPS분석표명,과립오니표면침적혹흡부료유,차이U(Ⅳ)위주。
The effect of initial U(Ⅵ) concentration, COD, SO 4 2?, Cu2+ and Fe0 on U(Ⅵ) removal by sulfate reducing bacteria granular sludge (SRBGS) for U(Ⅵ) removal was investigated. The removal stability was analyzed, then the deposit valence of uranium was studied. The results show that U(Ⅵ) reduction prefers a higher COD and SO 4 2?concentration at the range of 300?1500 mg/L. U(Ⅵ) removal is accelerated with increasing COD concentration and can be promoted when SO 4 2?concentration is less than 1500 mg/L. The existing of Cu2+do not affect U(Ⅵ) removal appreciably when its concentration is less than 100 mg/L, but U(Ⅵ) removal can not be inhibited completely while its concentration reaches 200 mg/L. Adding iron greatly improves U(Ⅵ) removal rate, U(Ⅵ) removal rate reaches 100%within 20 h. The SRBGS sludge can be long-term used, and the optimal hydraulic stay time(HRT) is 12.5 h. U(Ⅵ) can be reoxidized by NO3?. XPS analysis results indicate that the deposition of U element on SRBGS in main valence of U(Ⅳ).
