双污泥SBR工艺反硝化除磷脱氮特性及影响因素

Characteristics and Affecting Factors of Denitrifying Phosphorus Removal in Two-Sludge Sequencing Batch Reactor

以生活污水为处理对象,研究了双污泥A2NSBR工艺反硝化除磷脱氮特性,重点考察了进水C/P和C/N及HRT的影响作用;同时基于DO、ORP和pH的典型变化规律,验证它们作为反硝化除磷过程控制参数的可行性.结果表明,在本试验条件下,P的去除率随着进水C/P的升高整体呈现上升趋势.当进水C/P≥19.39左右时,系统可维持优良的除磷效果;而当进水C/P降至15.36以下时,系统除磷效果呈恶化趋势.另一方面,A2NSBR在低C/N条件下仍可获得相对良好的除磷率,但易导致反硝化脱氮率的下降.C/N的升高增加了聚磷菌厌氧阶段合成PHB的量,继而提高最终的脱氮和除磷效果;但C/N过高将使厌氧段未反应完全的过剩碳源滞留到缺氧段,优先支持反硝化异养菌(ordinary heterotrophic organisms,OHOs)的反硝化反应而减少了缺氧阶段DNPAOs可利用的电子受体数,致使缺氧除磷效果恶化.此外,A2NSBR拥有2套完全独立的SBR,较利于建立以DO、ORP和pH为参数的过程控制体系.

The characteristics of denitrifying phosphorus removal in a lab-scale two-sludge anaerobic-anoxic/nitrification SBR（A2NSBR） system were studied fed with domestic wastewater.The influence of some key operation parameters,like C/P,C/N,and HRT,were examined using parallel tests.pH,dissolved oxygen（DO） and redox potential（ORP） were monitored on line to validate whether they could be used as the control parameters for this denitrifying phosphorus removal process.Results indicated that P removal efficiency showed an increased trend on the whole with the increase of the C/P.When the influent C/P was greater than 19.39,good phosphorus removal efficiency was achieved.However,the phosphorus removal efficiency deteriorated once the influent C/P decreased less than 15.36.On the other hand,relatively good phosphorus removal efficiency could be maintained in the A2NSBR system even at a low C/N ratio,though the denitrification efficiency decrease instead.It is also found that increasing the influent C/N increased the P HB amount stored by polyphosphate accumulating organisms（PAO） and therefore the ultimate denitrification and phosphorus removal efficiency were both improved.For an excessively high C/N,the incompletely reacted COD will be residual to anoxic stage.Thus,the pure denitrification reaction,which preferentially supports OHOs,becomes the dominant reaction.This decreases the amount of available electron acceptors for denitrifying polyphosphate accumulating organisms （DNPAOs） at the anoxic stage which eventually impacts the anoxic phosphorus removal capacity.In addition,since A2NSBR has two completely independent SBR systems,it benefits to establish a process control system in terms of the parameters DO,ORP,and pH.