膜生物反应器亚硝化性能的影响因素研究

利用膜生物反应器成功启动了亚硝化工艺处理人工合成废水.为了确定影响亚硝化工艺效果的因素,先后对温度和溶解氧浓度进行了研究,结果表明,在温度35℃并且NH4+-N负荷平均0.45 kg.(m3.d)-1和溶解氧0.5 mg/L的条件下,可使出水中NO3--N的浓度低于20 mg.L-1,而ρ(NO2--N)∶ρ(NH4+-N)接近1.0.同时发现反应器运行期间,在低溶解氧的情况下,膜组件的污染并不严重.荧光原位杂交分析发现,在膜生物反应器中氨氧化菌成为优势菌种,亚硝酸盐氧化菌的活性受到了抑制.微生物群落分析则进一步提供了实现亚硝化工艺所必需的生物信息.     

Pollutants removal and simulation model of combined membrane process forwastewater treatment and reuse in submarine cabin for long voyage

A laboratory scale test was conducted in a combined membrane process (CMP) with a capacity of 2.91 m3/d for 240 d totreat the mixed wastewater of humidity condensate, hygiene wastewater and urine in submarine cabin during prolonged voyage.Removal performance of chemical oxygen demand (COD), ammonia nitrogen (NH4+-N), turbidity and anionic surfactants (LAS)was investigated under di erent conditions. It was observed that the e uent COD, NH4+-N, turbidity and LAS flocculated in ranges of0.19–0.85 mg/L, 0.03–0.18 mg/L, 0.0–0.15 NTU and 0.0–0.05 mg/L, respectively in spite of considerable fluctuation in correspondinginfluent of 2120–5350 mg/L, 79.5–129.3 mg/L, 110–181.1NTU and 4.9–5.4 mg/L. The e uent quality of the CMP could meet therequirements of mechanical water and hygiene water according to the class I water quality standards in China (GB3838-2002). Theremoval rates of COD, NH4+-N, turbidity and LAS removed in the MBR were more than 90%, which indicated that biodegradationis indispensable and plays a major role in the wastewater treatment and reuse. A model, built on the back propagation neural network(BPNN) theory, was developed for the simulation of CMP and produced high reliability. The average error of COD and NH4+-N was5.14% and 6.20%, respectively, and the root mean squared error of turbidity and LAS was 2.76% and 1.41%, respectively. The resultsindicated that the model well fitted the laboratory data, and was able to simulate the removal of COD, NH4+-N, turbidity and LAS. Italso suggested that the model proposed could reflect and manage the operation of CMP for the treatment of the mixed wastewaters insubmarine.     

温度对好氧颗粒污泥吸附铅离子的影响

由活性污泥培养得到好氧颗粒污泥,研究了温度对好氧颗粒污泥吸附Pb²⁺的影响.结果表明,好氧颗粒污泥主要含有C、H、N、O、P等元素,其经验结构式为C_5.7H_10.9O3.9NS_0.04.好氧颗粒污泥表面主要由球状细菌组成,具有明显的孔隙结构.在20～40℃时,Pb²⁺在好氧颗粒污泥上的吸附过程可以由Langmuir和Freundlich等温方程进行拟合（R²>0.914）.Pb2+最大吸附量Qmax由80.65 mg·g-1（20℃）增至97.09　mg·g-1（40℃）.吸附过程的表观自由能变ΔG<0、 ΔH>0、 ΔS>0,表明Pb2+在好氧颗粒污泥表面的吸附为吸热、熵增的自发过程.红外扫描分析(FTIR)结果表明,吸附过程Pb2+主要与—OH、蛋白质中的—COOH以及PO发生作用,与含氮官能团无关.     

基于仿真的新建污水处理厂工艺参数调试

基于ASM2D模型建立了上海某新建污水厂倒置AAO流程的数学模型,并采用该厂进、出水设计数据对模型进行校正,其中,ASM2D各组分浓度分布参考文献值.同时,通过仿真计算研究了不同温度下进水流量、污泥回流比、混合液回流比及进水流量分配比对出水总化学需氧量（TCOD）、氨氮（SNH3）、总氮（TN）、总磷（TP）及总悬浮颗粒物（TSS）的影响.结果表明,研究获得的定性和定量两方面结果可供该厂在工艺参数调试中作参考.计算机仿真技术在新建污水厂工艺参数调试中的应用可以减少调试时间,降低调试费用,取得良好的经济效益与环境效益.     

全程高温好氧堆肥快速降解城市生活垃圾

为了提高堆肥处理城市生活垃圾（MSW）的速率和质量,设计了一种外加热源的全程高温好氧堆肥工艺.实验以全程高温好氧堆肥和传统好氧堆肥两种方法对MSW进行了60d的堆肥处理.同时,监测了堆肥的pH和温度等参数的变化情况,并以C/N、种子发芽率(GI)、可溶性有机碳(DOC)、比好氧速率(SOUR)和脱氢酶（DH-ase）活性为指标评价了堆肥的腐熟度和质量.结果表明,全程高温堆肥法和传统堆肥法的堆肥周期分别为16d和28d,两种方法得到的产品其pH值均在7左右.在第31d将全程高温堆肥产品置于30℃恒温箱时,其理化性质没有出现明显波动,说明其堆肥产品性质稳定.因此,全程高温好氧堆肥法能明显缩短堆肥周期、提高堆肥质量,具有很大的应用潜力.     

硝化过程中影响亚硝酸盐积累的因素

采用间歇式批试验法,改变pH值、DO浓度和温度,试验发现:当pH值分别为8.2、7.5、9.2、6.5和5.0,DO分别为1.0mg/L、2.0mg/L、4.5mg/L和温度为30℃、25℃、35℃和10℃时,氨氧化速率依次减小。进水氨氮浓度为50mg/L～250mg/L,保持pH值为8.0±0.2时,游离氨浓度为4.45mg/L～22.68mg/L左右,最大HNO2浓度远<0.2mg/L,游离氨和HNO2对好氧氨氧化菌的影响较小。结果表明,pH值、DO浓度和温度对好氧氨氧化菌的富集有显著影响。在富集过程中,控制pH值、DO浓度和温度是关键因素,游离氨和HNO2进行适当控制,以保证抑制亚硝酸盐氧化菌而不抑制好氧氨氧化菌。     

Combined alkaline and ultrasonic pretreatment of sludge beforeaerobic digestion

Alkaline and ultrasonic sludge disintegration can both be used as pretreatments of waste activated sludge (WAS) for improving the subsequent anaerobic or aerobic digestion. The pretreatment has been carried out using different combination of these two methods in this study. The effect was evaluated based on the quantity of soluble chemical oxygen demand (SCOD) in the pretreated sludge as well as the degradation of organic matter in the following aerobic digestion. For WAS samples with combined pretreatment, the released COD was in high level than those with ultrasonic or alkaline treatment. When combined with the same ultrasonic treatment, NaOH treatment resulted in more solubilization of WAS than Ca(OH)2. For combined NaOH and ultrasonic treatments with different sequences, the released COD were in the order: simultaneous treatment > ultrasonic treatment following NaOH treatment > NaOH treatment following ultrasonic treatment. For simultaneous treatment, low NaOH dosage (100 g/kg dry solid), short duration (30 min) of NaOH treatment, and low ultrasonic specific energy (7 500 kJ/kg dry solid) were beneficial for sludge disintegration. Using combined NaOH and ultrasonic pretreatment with the optimium parameters, the degradation efficiency of organic matter was increased from 38.0% to 50.7%, which is much higher than with ultrasonic (42.5%) or with NaOH pretreatment (43.5%) in the subsequent aerobic digestion at the same retention time.     

不同温度下MESBR工艺和传统的SBR工艺对比试验研究

在不同温度下,研究了流化填料分格式SBR工艺(简称MESBR工艺)与传统的SBR工艺的COD去除率,有机物降解速率,脱氮效果和污泥沉降性能。结果表明:MESBR系统温度下降到5℃时,COD的去除率基本稳定在90%以上,比传统SBR系统高出15%左右;MESBR系统与传统SBR系统的温度系数θ分别为1.021和1.045。温度由20℃下降至5℃时,传统SBR系统的TN和NH3-N去除率分别降低26.5%和20%,而MESBR系统分别降低18.6%和11%。传统SBR系统SVI值随温度变化较大,当温度下降到5℃时SVI值达到234.8 mL/g,而MESBR系统的SVI值没有明显的变化,基本维持在120~130 mL/g。     

约翰内斯堡工艺的工程实践

通过监测城市污水处理厂约翰内斯堡工艺脱氮除磷各处理单元实际运行情况,分析该工艺实际运行效果,探讨该工艺中溶解氧(DO)、污泥龄(SRT)、碳源等因素对系统脱氮除磷效果的影响。     

2种反应器中好氧颗粒污泥培养的比较研究

以絮状活性污泥为接种污泥,采用人工配制的模拟生活污水,分别在气提式序批反应器(SBAR)和序批式活性污泥反应器(SBR)中成功地培养出了成熟的好氧颗粒污泥.SBAR和SBR中的好氧颗粒污泥都具有稳定的基本形态结构,其微生物主要由杆菌和球菌组成,对COD的去除率可达到93%左右.对NH+4-N的去除率可达到98%以上.SBAR中好氧颗粒污泥的粒径主要分布、污泥体积指数(SVI)、比耗氧速率(SOUR)、TN去除率和TP去除率分别为0.45～2.00 mm、19.97 mL/g、47.68 g/(kg·h)、82%和65%;而SBR中好氧颗粒污泥的粒径主要分布、SVI、SOUR、TN去除率和TP去除率分别为0.18～1.00 mm、29.12 mL/g、43.21 g/(kg·h)、58%和50%.相对而言,SBAR更有利于好氧颗粒污泥的培养和运行.