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革新的UNITANK法处理城市污水的特性 总被引:5,自引:0,他引:5
对UNITANK法的传统运行模式做了改进。在此基础上,考察了水力停留时问、溶解氧浓度和泥龄等重要因素对处理效果的影响。结果表明,将系统控制在适宜的条件下,出水COD和NH3-N均可达到污水综合排放一级标准。提出了后续研究中改善除磷效果的措施。 相似文献
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This paper focused on the factors affecting the respiration rate of the digestate taken from a continuous anaerobic two-stage process treating the organic fraction of municipal solid waste (OFMSW). The process involved a hydrolytic reactor (HR) that produced a leachate fed to a submerged anaerobic membrane bioreactor (SAMBR). It was found that a volatile solids (VS) removal in the range 40-75% and an operating temperature in the HR between 21 and 35 °C resulted in digestates with similar respiration rates, with all digestates requiring 17 days of aeration before satisfying the British Standard Institution stability threshold of 16 mg CO2 g VS−1 day−1. Sanitization of the digestate at 65 °C for 7 days allowed a mature digestate to be obtained. At 4 g VS L−1 d−1 and Solid Retention Times (SRT) greater than 70 days, all the digestates emitted CO2 at a rate lower than 25 mg CO2 g VS−1 d−1 after 3 days of aeration, while at SRT lower than 20 days all the digestates displayed a respiration rate greater than 25 mg CO2 g VS−1 d−1. The compliance criteria for Class I digestate set by the European Commission (EC) and British Standard Institution (BSI) could not be met because of nickel and chromium contamination, which was probably due to attrition of the stainless steel stirrer in the HR. 相似文献
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为了优化污水处理厂中不同SRT条件下曝气池DO值,对不同DO条件下COD和NH4+-N去除规律进行了研究和探讨,得到了出水刚好满足一级A排放标准的最小DO浓度,并将该DO值定义为曝气池的临界DO值。实验结果表明,活性污泥系统具有较强的COD去除能力,不同SRT在不同DO条件下的COD平均去除率均在85%以上,说明COD的去除效果基本不受DO浓度的影响;而DO浓度对NH4+-N的去除效果有较大的影响,随着SRT的增大,NH4+-N的去除效果逐渐变好,低DO浓度对NH4+-N去除的负面效应也逐渐减弱。以出水NH4+-N达到一级A排放标准为目标,SRT为10、17.5、25和35 d时的临界DO值分别为1.5、0.8和0.3 mg·L-1。最终通过拟合,得到了临界DO值与SRT关系的经验公式。 相似文献
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为深入了解有机物与氨氮的降解规律,对活性污泥法改进及新兴脱氮技术应用提供技术支持,研究了有机物去除段与硝化段分离的过程和机理,探讨了不同污泥龄对该过程的影响,并加入呼吸速率(OUR)这一新指标。结果表明,在各污泥龄下,有机物去除和硝化是分步进行的,先进行有机物的去除,当有机物进入慢速降解或难降解阶段时,才进入硝化阶段。污泥龄越小,两个过程的分离越明显。10、17.5和35 d污泥龄下有机物对氨氮的临界抑制浓度分别为36、72和96 mg·L-1。DO和OUR均可表征该分离过程。OUR作为表示活性污泥活性的指标,在实际分离应用中更有意义。 相似文献
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采用两级完全混合发酵工艺进行碳源开发试验,研究了水力停留时间(HRT)和污泥停留时间(SRT)对工艺开发碳源效果的影响.研究表明,固定SRT为4d,污泥回流比为1,HRT在32~36h,系统出水的溶解性COD(SCOD)可维持在1090~1180mg/L,且浓缩池泥水分离效果较好,出水的SS保持在50~80mg/L.保持系统的HRT为32h,污泥回流比为1,SRT在4~7d时,可实现厌氧系统中产酸菌与产甲烷菌的分离,系统能够保持良好的产酸效果,此时系统出水的SCOD值基本稳定于980~1179mg/L.碱度可以作为衡量水解酸化系统是否有效运行的重要参数.HRT为32h,SRT为4d的工况下,初沉污泥酸化发酵系统对氨氮和磷的释放率分别为3.88 mgN/gVSS和0.27mgP/gVSS. 相似文献
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为了探究间歇梯度曝气下污泥龄对氨氧化菌(AOB)和亚硝酸盐氧化菌(NOB)的影响,研究短程硝化内源反硝化除磷系统对于处理低C/N比生活污水的优势作用,本文采用SBR反应器培养好氧颗粒污泥,实验进水采用实际生活污水.结果表明,在SRT由50 d逐渐降低至30 d过程中,比氨氧化速率由3.16 mg·(g·h)-1增加至4.38 mg·(g·h)-1,比亚硝酸盐氧化速率由3.4 mg·(g·h)-1降为1.8 mg·(g·h)-1左右,可知NOB活性降低约44%,从而使系统实现了短程硝化.当SRT为30 d时,由典型周期实验可知亚硝酸盐最大积累量可达6.93mg·L-1.由于系统中污泥浓度随SRT的减少而略有降低,因此在反应进行至40 d左右时根据DO曲线采取降低曝气量的策略,最终SRT为30 d时系统出水COD浓度为40.76 mg·L-1,TN浓度为12.4 mg·L-1,TP浓度为0.31 mg·L-1,强化了系统中C、N和P的同步去除,最终得到了稳定运行的短程硝化内源反硝化除磷系统.同时好氧颗粒污泥EPS含量与SRT呈现负相关性,蛋白质含量由污泥龄为50 d的66.7 mg·g-1升为30 d的95.1mg·g-1,多糖保持在12.1~17.2 mg·g-1的范围内,说明SRT的降低对蛋白质含量的影响较多糖大,当SRT为30 d时,PN/PS值保持在6.2左右,好氧颗粒污泥在该条件下仍能保持较好的结构稳定性. 相似文献
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污泥龄(SRT)是影响废水生物处理系统稳定性的重要参数,SRT对酵母菌处理废水系统的影响尚不明确.为探明SRT对酵母处理油脂废水的影响,在序批式反应器(SBR)中考察了不同SRT(5、10、20、40 d)对废水处理效果、胞外聚合物(EPS)、酵母污泥沉降性的影响,并通过PCR-DGGE及克隆测序方法解析了系统中的酵母菌群落结构.结果表明:酵母菌处理油脂废水合适的SRT为5~10 d;较长SRT会导致COD去除率降低及污泥中EPS总量下降;酵母污泥中EPS以紧密型EPS为主,主要成分为多糖;5~40 d范围内的SRT对系统中酵母污泥的污泥容积指数(SVI)影响不显著,但系统在长的SRT(20d)下运行会导致系统中丝状细胞明显增多,有丝状菌性膨胀的趋势;长、短SRT下酵母群落结构相似,系统中都出现了3株可以利用或者降解油脂的外源性酵母菌株.综上结果,短SRT有利于酵母处理油脂废水系统的运行稳定性. 相似文献
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A moving bio-film (MB), made from the inner tube of used tyres was applied in a conventional-aerobic-SBR for increasing the system efficiency and quality of bio-sludge due to good sedimentation (the density of 1.925+/-0.21 g/cm(3)), non-biodegradability and re-usability of the media without any regeneration. The total bio-sludge mass of the MB-aerobic-SBR was about 30% higher than that of the conventional-aerobic-SBR resulting in a reduction of the F/M value of the system and amount of suspended bio-sludge waste. The amount of suspended bio-sludge waste, SVI and SRT of the MB-aerobic-SBR under a low organic loading of 80+/-9.3g BOD(5)/m(3)-d were 1,485+/-146 mg/d, 51+/-3.7 ml/g and 10.1+/-5.1 days, respectively while they were 1,800+/-152 mg/d, 69+/-4.0 ml/g and 8.3+/-5.3 days, respectively in the conventional-aerobic-SBR. The BOD(5), TKN and TP removal efficiencies of the MB-aerobic-SBR were about 1-2, 2-3 and 10-12% higher, respectively, than that of the conventional-aerobic-SBR. Also, the BOD(5) and COD removal efficiencies of the MB-aerobic-SBR were higher than 95% even when the system was operated with synthetic wastewater containing 800 mg/l BOD(5) under a very low HRT of 1.5 days (organic loading of 528+/-50.8 g BOD(5)/m(3)-d). The effluent BOD(5), COD, total kjeldahl nitrogen, total phosphorus and suspended solids of the MB-aerobic-SBR under a high organic loading of 528+/-50.8 g BOD(5)/m(3)-d were 45+/-5.1, 37+/-3.6, 4.1+/-1.0, 1.5+/-0.80 and 41+/-2mg/l, respectively. 相似文献