中国环境科学
中國環境科學
중국배경과학
China Environmental Science
2015年
9期
2636-2643
,共8页
戴娴%王晓霞%彭永臻%王淑莹
戴嫻%王曉霞%彭永臻%王淑瑩
대한%왕효하%팽영진%왕숙형
同步硝化反硝化除磷%聚羟基脂肪酸-PHA%聚磷菌%低溶解氧%C/N
同步硝化反硝化除燐%聚羥基脂肪痠-PHA%聚燐菌%低溶解氧%C/N
동보초화반초화제린%취간기지방산-PHA%취린균%저용해양%C/N
simultaneous nitrification denitrification and phosphorus removal (SNDPR)%poly-hydroxyalkanoates (PHAs)%phosphorous accumulating organisms (PAOs)%low dissolved oxygen%C/N
为了解富集聚磷菌(PAOs)的同步硝化反硝化除磷(SNDPR)系统的脱氮除磷特性,采用延时厌氧(180min)/低氧(溶解氧 0.5~1.0mg/L)运行的SBR反应器,以实际生活污水为处理对象, 通过投加固态乙酸钠调节进水C/N值(约为11,8,4,3),考察其对系统脱氮除磷特性及同步硝化反硝化(SND)脱氮率的影响.结果表明:C/N对系统的除磷性能没有影响,出水PO43——P浓度均稳定在0.3mg/L左右,这是由于系统内聚磷菌(PAOs)含量高,且在低氧段可同时发生好氧吸磷与反硝化吸磷.随着C/N的增大,出水NH4+-N浓度升高,C/N下降时,出水NO3——N浓度升高.此外,随着C/N的减小,厌氧段反硝化所消耗的COD占进水COD的比例增大,SND可利用的内碳源-PHAs储存量减少,但PHV的利用率增加;当C/N为4~8时,SND现象最明显,SND脱氮率达50.8%,而其它C/N条件下,SND脱氮率都有相应程度的减弱.C/N为8时,系统出水综合指标最好,TN去除率高达80.8%.
為瞭解富集聚燐菌(PAOs)的同步硝化反硝化除燐(SNDPR)繫統的脫氮除燐特性,採用延時厭氧(180min)/低氧(溶解氧 0.5~1.0mg/L)運行的SBR反應器,以實際生活汙水為處理對象, 通過投加固態乙痠鈉調節進水C/N值(約為11,8,4,3),攷察其對繫統脫氮除燐特性及同步硝化反硝化(SND)脫氮率的影響.結果錶明:C/N對繫統的除燐性能沒有影響,齣水PO43——P濃度均穩定在0.3mg/L左右,這是由于繫統內聚燐菌(PAOs)含量高,且在低氧段可同時髮生好氧吸燐與反硝化吸燐.隨著C/N的增大,齣水NH4+-N濃度升高,C/N下降時,齣水NO3——N濃度升高.此外,隨著C/N的減小,厭氧段反硝化所消耗的COD佔進水COD的比例增大,SND可利用的內碳源-PHAs儲存量減少,但PHV的利用率增加;噹C/N為4~8時,SND現象最明顯,SND脫氮率達50.8%,而其它C/N條件下,SND脫氮率都有相應程度的減弱.C/N為8時,繫統齣水綜閤指標最好,TN去除率高達80.8%.
위료해부집취린균(PAOs)적동보초화반초화제린(SNDPR)계통적탈담제린특성,채용연시염양(180min)/저양(용해양 0.5~1.0mg/L)운행적SBR반응기,이실제생활오수위처리대상, 통과투가고태을산납조절진수C/N치(약위11,8,4,3),고찰기대계통탈담제린특성급동보초화반초화(SND)탈담솔적영향.결과표명:C/N대계통적제린성능몰유영향,출수PO43——P농도균은정재0.3mg/L좌우,저시유우계통내취린균(PAOs)함량고,차재저양단가동시발생호양흡린여반초화흡린.수착C/N적증대,출수NH4+-N농도승고,C/N하강시,출수NO3——N농도승고.차외,수착C/N적감소,염양단반초화소소모적COD점진수COD적비례증대,SND가이용적내탄원-PHAs저존량감소,단PHV적이용솔증가;당C/N위4~8시,SND현상최명현,SND탈담솔체50.8%,이기타C/N조건하,SND탈담솔도유상응정도적감약.C/N위8시,계통출수종합지표최호,TN거제솔고체80.8%.
This study focused on the elucidation of the mechanisms of nitrogen and phosphorus removal in simultaneous nitrification-denitrification and phosphorus removal (SNDPR) systems enriched with phosphorus accumulating organisms (PAOs). An extended anaerobic (aeration duraction: 180min)/low aerobic (dissolved oxygen: 0.5~1.0mg/L) sequencing batch reactor (SBR) fed with domestic wastewater was studied for SND (simultaneous nitrification-denitrification) efficiency of SNDPR under different C/N ratios (3, 4, 8, and 11) adjusted by adding sodium acetate into the domestic waster. The experimental results showed that the phosphorus removal efficiency was not affected by influent C/N ratios with an effluent PO43——P concentration lower than 0.3mg/L, which might be caused by the enriched PAOs capable of achieving a simultaneous aerobic phosphorus uptake and denitrifying phosphorus uptake at the low aerobic phase. In contrast, effluent NH4+-N concentration increased with the C/N ratio and the effluent NO3——N concentration increased with the decrease of C/N ratio. The consumption of chemical oxygen demand (COD) for exogenous denitrification increased with the decease in C/N ratio. The storage capacity of PHAs (poly-hydroxyalkanoates) for SND was reduced, but its utilization of PHV (Volatile fatty acids) was increased. SND efficiency reach the peak value of 50.8% at the C/N ratio of 4~8, and total nitrogen (TN) removal efficiency reached 80.8% at the C/N ratio of 8.
