Lopes Jéssica Costa, Silva Bruno Garcia, Dias Maria Eduarda Simões, Carneiro Rodrigo Braz, Damianovic Márcia Helena Rissato Zamariolli, Foresti Eugenio
Laboratory of Biological Processes (LPB), São Carlos School of Engineering, University of São Paulo (USP), 1100, João Dagnone Ave., Santa Angelina, 13563-120, São Carlos, São Paulo, Brazil.
Laboratory of Chromatography (CROMA), Institute of Chemistry of São Carlos, University of São Paulo (USP), 400, Trabalhador São-Carlense Ave., São Carlos, São Paulo, 13566-590, Brazil.
Environ Sci Pollut Res Int. 2023 Jan;30(5):11755-11768. doi: 10.1007/s11356-022-23003-x. Epub 2022 Sep 13.
The nutrient biological removal from sewage, especially from anaerobic reactor effluents, still represents a major challenge in conventional sewage treatment plants. In this work, the nitrogen and phosphorus removal from anaerobic pre-treated domestic sewage in an up-flow anaerobic sludge blanket (UASB) reactor was assessed in a structured fixed bed reactor (SFBR) operated in a continuous and in a batch mode using polyurethane foam as material support for biomass and fermented glycerol as the exogenous carbon source. The SFBR was operated as a sequencing batch reactor with cycles of 90, 120, and 150 min under anaerobic, oxic, and anoxic conditions, respectively, reaching average efficiencies for total nitrogen and phosphorus removal of 88% and 56%, respectively. Fermented glycerol was added during the non-aerated periods. Under continuous feeding, the SFBR was operated with aeration/non-aeration periods of 2/1 (h) and 3/1 (h), hydraulic retention time of 12 h, and a recirculation ratio of 3. Without fermented glycerol addition, the maximum removal of total nitrogen (TN) reached 42%, while adding glycerol in the non-aerated period improved TN removal to 64.9% (2/1 h) and 69.5% (3/1 h). During continuous operation, no phosphorus removal was observed, which was released during the non-aerated period, remaining in the effluent. Optical microscopy analyses confirmed the presence of polyphosphate granules and of the phosphorus accumulating organisms in the reactor biofilm. It was concluded that the batch feeding method was determinant for phosphorus removal. The structured fixed bed reactor with polyurethane foam proved to be feasible in the removal of organic matter and nutrients remaining in the UASB reactor effluent.
从污水中,尤其是从厌氧反应器出水中去除营养物质,在传统污水处理厂中仍然是一项重大挑战。在本研究中,以上流式厌氧污泥床(UASB)反应器预处理的生活污水为对象,在结构化固定床反应器(SFBR)中评估了氮和磷的去除效果。该反应器以聚氨酯泡沫作为生物质的材料载体,以发酵甘油作为外源碳源,分别以连续模式和间歇模式运行。SFBR作为序批式反应器运行,厌氧、好氧和缺氧条件下的周期分别为90、120和150分钟,总氮和总磷的平均去除效率分别达到88%和56%。在非曝气阶段添加发酵甘油。在连续进水条件下,SFBR的曝气/非曝气时间为2/1(小时)和3/1(小时),水力停留时间为12小时,回流比为3。不添加发酵甘油时,总氮(TN)的最大去除率达到42%,而在非曝气阶段添加甘油可将TN去除率提高到64.9%(2/1小时)和69.5%(3/1小时)。在连续运行期间,未观察到磷的去除,磷在非曝气阶段释放并残留在出水中。光学显微镜分析证实了反应器生物膜中存在聚磷酸盐颗粒和聚磷菌。得出的结论是,间歇进水方式是磷去除的决定性因素。事实证明,带有聚氨酯泡沫的结构化固定床反应器在去除UASB反应器出水中残留的有机物和营养物质方面是可行的。
