中国环境科学
中國環境科學
중국배경과학
CHINA ENVIRONMENTAL SCIENCE
2014年
4期
924-929
,共6页
李祥%黄勇%刘福鑫%袁怡%陈钟姮%丁敏
李祥%黃勇%劉福鑫%袁怡%陳鐘姮%丁敏
리상%황용%류복흠%원이%진종항%정민
厌氧氨氧化%铜离子%锌离子%氮去除速率%影响
厭氧氨氧化%銅離子%鋅離子%氮去除速率%影響
염양안양화%동리자%자리자%담거제속솔%영향
anammox%copper iron%zinic iron%nitrogen removal rate%effect
通过接种厌氧氨氧化污泥,研究了 Cu2+、Zn2+浓度变化对厌氧氨氧化污泥脱氮效能长短期的影响.短期实验结果表明,铜、锌离子对厌氧氨氧化污泥的脱氮效能影响主要分为3个阶段.刺激阶段,Cu2+浓度0~1mg/L和Zn2+浓度0~4mg/L时,随着进水金属离子浓度的增加,微生物活性受到刺激,氮去除速率迅速增加;稳定阶段,Cu2+浓度1~8mg/L 时,氮去除速率处于稳定状态.抑制阶段,Cu2+浓度大于8mg/L 和Zn2+大于4mg/L时,随着进水金属离子浓度的增加,氮去除速率逐步下降.Cu2+、Zn2+对厌氧氨氧化污泥脱氮效能长期影响表明,当进水Cu2+浓度达到4mg/L和Zn2+达到8mg/L时厌氧氨氧化污泥的活性将受到抑制.降低进水重金属浓度后,厌氧氨氧化污泥活性可以得到恢复.厌氧氨氧化菌对Cu2+的敏感性强于Zn2+.
通過接種厭氧氨氧化汙泥,研究瞭 Cu2+、Zn2+濃度變化對厭氧氨氧化汙泥脫氮效能長短期的影響.短期實驗結果錶明,銅、鋅離子對厭氧氨氧化汙泥的脫氮效能影響主要分為3箇階段.刺激階段,Cu2+濃度0~1mg/L和Zn2+濃度0~4mg/L時,隨著進水金屬離子濃度的增加,微生物活性受到刺激,氮去除速率迅速增加;穩定階段,Cu2+濃度1~8mg/L 時,氮去除速率處于穩定狀態.抑製階段,Cu2+濃度大于8mg/L 和Zn2+大于4mg/L時,隨著進水金屬離子濃度的增加,氮去除速率逐步下降.Cu2+、Zn2+對厭氧氨氧化汙泥脫氮效能長期影響錶明,噹進水Cu2+濃度達到4mg/L和Zn2+達到8mg/L時厭氧氨氧化汙泥的活性將受到抑製.降低進水重金屬濃度後,厭氧氨氧化汙泥活性可以得到恢複.厭氧氨氧化菌對Cu2+的敏感性彊于Zn2+.
통과접충염양안양화오니,연구료 Cu2+、Zn2+농도변화대염양안양화오니탈담효능장단기적영향.단기실험결과표명,동、자리자대염양안양화오니적탈담효능영향주요분위3개계단.자격계단,Cu2+농도0~1mg/L화Zn2+농도0~4mg/L시,수착진수금속리자농도적증가,미생물활성수도자격,담거제속솔신속증가;은정계단,Cu2+농도1~8mg/L 시,담거제속솔처우은정상태.억제계단,Cu2+농도대우8mg/L 화Zn2+대우4mg/L시,수착진수금속리자농도적증가,담거제속솔축보하강.Cu2+、Zn2+대염양안양화오니탈담효능장기영향표명,당진수Cu2+농도체도4mg/L화Zn2+체도8mg/L시염양안양화오니적활성장수도억제.강저진수중금속농도후,염양안양화오니활성가이득도회복.염양안양화균대Cu2+적민감성강우Zn2+.
Theeffects of copper and zinc ion concentration on nitrogen removal efficiency were studied in short or long term by inoculating anammox sludge. The influence of copper and zinc ion in anammox sludge was mainly divided into three stages in the short-term. The stimulus phase, anammox bacteria activity was stimulated and the nitrogen removal rate increased rapidly with the increase of concentration of copper ion and zinc ion from 0mg/L to 1mg/L and from 0mg/L to 4mg/L respectively. The stabilization phase, the nitrogen removal rate in steady state with the concentration of copper ion increased from 1mg/L to 8mg/L. The Inhibition phase, the nitrogen removal rate decrease gradually with the increase of the concentration of copper ion or the zinc ion greater than 8mg/L and 4mg/L. Copper ions and zinc ions on anammox sludge nitrogen removal efficiency of long-term effects showed that, the nitrogen removal rate decrease rapidly and the sludge activity would be inhibited when the influent concentration of copper ion at 4mg/L and zinc ions to achieve 8mg/L. Anammox sludge activity can be recovery when reduce the influent concentration of heavy metals. Copper ion more susceptible than the zinc ion on anammox bacteria.