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1.
通过在5组相同型号的SBBR反应器(A、B、C、D和E)内调节进水中的Ca2+含量,研究Ca^2+在净水生物膜团聚体培养过程的作用影响。结果表明,进水Ca2+投加浓度为25 mg/L时驯化培养的生物膜团聚体具有较好的抗挤压能力,抗压强度达到了22 N/cm2,密度为1.059 g/cm^3,活性微生物的百分含量达到了86.90%,远远高于一般污泥团聚体中的微生物含量。分析运行效果,反应器C和D的生物膜团聚体通过29 d的驯化培养就达到了一个比较好的净水效果,并能维持稳定状态,相比于一般生物膜反应器的驯化时间有所缩短。不同进水负荷条件下氨氮的去除率变化表明,反应器C和D针对不同进水负荷表现出来的适应效果明显优于其他反应器。  相似文献   

2.
张燕  胡学伟  江孟  李姝 《环境工程学报》2015,9(4):1547-1552
通过向序批式生物膜反应器(SBBR)中投加Ca2+,考察Ca2+对生物膜形态结构及其组分的影响,探究Ca2+在生物膜形成中的作用影响规律及其对生物膜反应器运行的影响,以期能为含钙废水处理及优化废水处理效果提供理论指导。研究结果表明,Ca2+浓度增加有助于生物膜形成,并提高生物膜结构致密性;连续少量增加Ca2+(1~2 mg/L)有助于挂膜初期(约10 d)有机物去除;然而Ca2+浓度过高则会抑制生物膜活性,影响其降解性:当Ca2+浓度超过120 mg/L时,氨氮去除率出现下降,当Ca2+浓度超过280 mg/L时,有机物和总氮去除率显著下降。对生物膜及其胞外多聚物(EPS)组分的分析表明,Ca2+不会刺激微生物分泌产生更多EPS,但会导致生物膜干重增加。  相似文献   

3.
分段进水多级生物膜反应器脱氮效能影响因素研究   总被引:2,自引:1,他引:1  
采用分段进水多级生物膜反应器处理高氮低碳小城镇污水,考察负荷、溶解氧和温度对反应器脱氮效能的影响。实验结果表明:负荷、溶解氧和温度对反应器脱氮效能有显著影响。在水温为20~25℃,DO为5 mg/L,负荷为1 kgCOD/(m3.d),挂膜密度为30%,第1、3、6级分段进水,流量分配比为2∶2∶1的条件下,在反应器中可成功构建出高效同时硝化反硝化系统,出水COD、NH4+-N和TN浓度分别为33 mg/L、2.6 mg/L和29.4 mg/L,去除率分别为90.1%、96.0%和63.9%。当水温≤15℃时,硝化速率受温度的影响显著。  相似文献   

4.
研究投加聚氨酯泡沫微生物固定化载体的SBBR脱氮除磷效果及机理.在SBR中填充聚氨酯泡沫微生物固定化载体,形成序批式生物膜反应器(SBBR).SBBR以实际生活污水为处理对象,在A/O运行工况下对微生物进行培养驯化,并在SBBR运行稳定时研究其脱氮除磷效果.研究结果表明,SBBR中的聚氨酯泡沫微生物固定化载体在空间上形...  相似文献   

5.
通过构建实验室反应器,比较分析侧流活性污泥水解(SSH)工艺和常规厌氧/缺氧/好氧(A2/O)工艺在不同进水负荷下的脱氮性能及功能微生物群落结构的变化规律.结果表明,在相同进水条件下,SS H反应器具有更好且更稳定的脱氮性能,72%的出水可达到《城镇污水处理厂污染物排放标准》(GB 18918—2002)一级A标准.提...  相似文献   

6.
Ca(Ⅱ)在活性污泥生物絮凝中的作用研究   总被引:2,自引:0,他引:2  
采用4个平行的序批式反应器(SBR),研究了进水Ca2+浓度对活性污泥絮体表而特性和结构稳定性的影响,并由此来确定Ca2+在生物絮凝中的作用.结果表明:随着进水Ca2+浓度的增加,污泥中的Ca含量逐渐增大.进水中Ca2+的加入,增大了污泥絮体的粒径和密度,进南改善了污泥的沉降性能;Ca2+的加入,使可供结合的蛋白质数量最高增至近1倍,污泥表面疏水性也相应增强;污泥絮凝性能的改善,主要和可供Ca2+结合的蛋白质含量增加有关,而非多糖;EDTA通过络合污泥絮体中的Ca2+,破坏了山Ca2+架桥形成的污泥絮体结构,这说明Ca2+可通过和胞外聚合物(extracellular polymeric substances,EPS)中的负电官能团架桥来促进污泥絮体的形成并维持絮体结构的稳定性.  相似文献   

7.
采用AOAB(水解酸化A1+生物接触氧化O+深度水解酸化A2+曝气生物滤池BAF)工艺处理难降解混合化工污水,重点研究工艺挂膜方式和生物膜的驯化。结果表明,采用分段连续式挂膜法进行反应器挂膜,20 d即可完成快速挂膜启动;采用分阶段同步培养驯化法驯化生物膜,30 d内可完成高浓度多组分混合化工污水进水的驯化,最终进水COD 1 456 mg/L,出水COD 324 mg/L,总去除率76.85%,驯化效果显著;整个工艺对COD的降解主要集中在生物接触氧化池和曝气生物滤池,驯化期间生物接触氧化池去除率稳定在40%左右,曝气生物滤池去除率稳定在50%以上。同时,通过对比一段水解酸化和深度水解酸化的VFA(挥发性脂肪酸)产出,表明在高有机负荷进水时,一段水解酸化降解大分子有机物的能力有限,但这些有机物可通过二段水解酸化再次降解,由此体现了AOAB工艺在处理多组分混合型的难降解化工污水的优势。  相似文献   

8.
大型UASB处理阿维菌素废水厌氧污泥颗粒化研究   总被引:3,自引:1,他引:2  
采用大型UASB反应器处理阿维菌素废水,接种好氧絮状污泥,经过189 d运行,成功实现了厌氧污泥颗粒化.通过调节反应器进水水质控制进水中阿维菌素浓度和长时间培养驯化,阿维菌素对厌氧消化的抑制影响基本消除.UASB反应器进水pH值4~5、COD 8890~12 100 mg/L、容积负荷达到10.5 kg COD/m3·d,COD去除率稳定在85%以上,出水COD为1308~1670 mg/L.  相似文献   

9.
培养方式对废水脱氮与沼气脱硫污泥驯化影响   总被引:1,自引:0,他引:1  
实验研究了底物、接种污泥和微生物生长方式对猪场废水脱氮和沼气脱硫耦联污泥驯化及活性恢复的影响,以解决快速富集培养废水脱氮与沼气脱硫微生物的问题。研究发现,就脱氮脱硫均达到60%的时间而言,接种厌氧污泥反应器为9 d,比接种好氧污泥反应器(18 d)和不接种污泥加填料反应器(21 d)更短。以含氮含硫废水为底物驯化时,接种厌氧污泥更有利于脱氮脱硫污泥的驯化;而同为接种好氧污泥时,以含氮含硫废水为底物的驯化方式更有利于脱氮脱硫污泥的驯化。污泥活性恢复实验中,以含氮废水+沼气(H2S)为底物培养驯化的污泥,硫转化活性恢复所用的时间为15 d,比含氮含硫废水为底物驯化污泥的活性恢复时间更长。  相似文献   

10.
研究了厌氧流化床微生物燃料电池(AFB-MFC)除碳脱氮产电性能的影响因素。结果表明:(1)AFB-MFC对NH4+-N的去除不起作用。电压下降主要是由于进水有机基质浓度下降造成。(2)不添加NO3--N时,在满足AFB-MFC脱氮所需的电子供体条件下增加进水COD/TN有利于AFB-MFC产电。(3)3种无机氮共存下,AFB-MFC在进水有机碳与无机氮质量比(C/N)不低于1.37时,对COD、NO2--N和NO3--N具有理想的去除效果。AFB-MFB在一定进水C/N范围内(1.37~2.50),能得到稳定的输出电压及功率密度。(4)固定进水C/N时,AFB-MFC在高碳氮负荷下仍能得到较理想的NO2--N、NO3--N、COD去除效果,AFB-MFC对NH4+-N去除效果不明显;增加碳氮负荷,AFB-MFC输出电压及功率密度没有明显的改变。(5)有机基质浓度不变下,AFB-MFC中充足的电子供体可保证较高的NO3--N、COD去除率。AFB-MFC输出电压及功率密度随着时间延长而先增加至稳定值后下降。  相似文献   

11.
Ca2+对上流式多级厌氧反应器处理蔗渣渗滤液的影响   总被引:1,自引:1,他引:0  
研究了上流式多级厌氧反应器(UMAR)处理蔗渣渗滤液过程中Ca2+浓度对反应器运行特性和颗粒污泥性质的影响。结果表明,对于蔗渣渗滤液而言,进水中低浓度的Ca2+浓度(80~300 mg/L)对颗粒污泥产甲烷活性无抑制,COD去除率最高可达93.3%;Ca2+浓度达到500 mg/L以上时,对厌氧颗粒污泥的活性有抑制作用;随着Ca2+浓度进一步升高,抑制作用加强,污泥灰分明显升高,活性成分下降,COD去除效率明显降低,污泥粘结沉积在反应器底部,导致系统内循环出现障碍。因此,在实际生产中应减少废水中Ca2+的引入量。  相似文献   

12.
Kim EH  Lee DW  Hwang HK  Yim S 《Chemosphere》2006,63(2):192-201
A phosphorus crystallization process for recovering phosphates was developed using a completely mixed reactor and powdered converter slag as a seed crystal. This completely mixed phosphorus crystallization process achieved a stable and high phosphorus recovery: the average PO4-P removal efficiency during 200 d of operation was 87%, with a range of 70-98%. The apparent volume of the slag doubled due to crystal growth during the long-term phosphorus-removal experiments. The Ca2+ concentration, slag dosage, and temperature were found to govern the phosphorus recovery system for a given condition of pH and hydraulic retention time. The equations for the rate constant and reaction order were obtained by evaluating the model parameters. The model developed in this study was observed to successfully simulate the behavior of effluent PO4-P in a completely mixed phosphorus crystallization reactor over a wide variety of operating conditions of temperature, Ca2+ concentration, and influent PO4-P. Model investigations of design factors suggest that the completely mixed phosphorus crystallization process with influent PO4-P concentrations of less than 10 mg l(-1) could ensure effluent PO4-P concentrations of less than 0.5 and 1.0 mg l(-1) during summer and winter in Korea, respectively.  相似文献   

13.
针对榨菜腌制废水高盐高氮磷高有机物浓度的特征,提出"厌氧序批式生物膜反应器(ASBBR)-二级序批式生物膜反应器(SBBR)-化学除磷"组合处理工艺,在前期对组合工艺中单元工艺的关键工况参数研究的基础上,考察组合工艺的处理效能。实验结果表明,采用该组合工艺,可使进水COD、NH4+-N、TN及PO43--P分别为10 000、345、550和38.5mg/L的榨菜腌制废水,处理出水COD、NH4+-N、TN及PO43--P分别达到93.6、12.3、18和0.1 mg/L,去除率分别为99.1%、96.4%、96.7%和99.9%,出水达到污水综合排放一级标准。  相似文献   

14.
容积负荷对厌氧氨氧化反应器运行影响的研究   总被引:6,自引:0,他引:6  
采用1套有效容积为3 L的厌氧复合床作为厌氧氨氧化反应器,用提高进水基质浓度和缩短反应器水力停留时间2种方式提高反应器的容积负荷,进而研究反应器最佳的进水浓度和水力停留时间。结果表明,在HRT为24 h的条件下,反应器最佳进水浓度NH4+-N与NO2--N在110 mg/L左右;通过调节HRT发现,当HRT大于8 h时,NH4+-N与NO2--N的去除率都在80%以上。  相似文献   

15.
研究了城市生活垃圾焚烧厂渗沥液中Ca2+对厌氧颗粒污泥膨胀床反应器(EGSB)处理效果的影响,并采用静态实验方法考察了Ca2+对厌氧颗粒污泥产甲烷活性的影响。实验结果表明,进水COD为17000mg/L的条件下,当Ca2+浓度低于6000mg/L时,EGSB对COD去除率达93%以上;当Ca2+浓度高于6000mg/L时,COD去除率随运行时间明显下降,并在污泥中形成大量沉淀。静态实验结果表明,废水中低浓度Ca2+促进了厌氧颗粒污泥的产甲烷活性,但高浓度Ca2+明显抑制了其产甲烷活性,这是导致高Ca2+浓度条件下EGSB对COD去除率降低的主要原因。研究表明,颗粒污泥产甲烷活性恢复程度随Ca2+浓度增加而减弱。  相似文献   

16.

In the present study, bio-apatite/nZVI composite was synthesized through Fe(III) reduction with sodium borohydride and was fully characterized by FTIR, XRD, SEM–EDX, TEM, BET, BJH, and pHPZC. Column experiments were carried out for the removal of phosphate as a function of four operational parameters including initial phosphate concentration (100–200 mg L?1), initial solution pH (2–9), bed height (2–6 cm), and influent flow rate (2.5–7.5 mL min?1) using a response surface methodology (RSM) coupled with Box-Behnken design (BBD). 2D contour and 3D surface plots were employed to analyze the interactive effects of the four operating parameters on the column performance (e.g., uptake capacity and saturation time). According to ANOVA analysis, the influent flow rate and bed height are the most important factor on phosphate uptake capacity and saturation time, respectively. A quadratic polynomial model was excellently fitted to experimental data with a high coefficient of determination (>?0.96). The RSM-BBD model predicted maximum phosphate adsorption capacity of 85.71 mg g?1 with the desirability of 0.995 under the optimal conditions of 135.35 mg L?1, 2, 2 cm, and 7.5 mL min?1 for initial phosphate concentration, initial solution pH, bed height, and influent flow rate, respectively. The XRD analysis demonstrated that the reaction product between bio-apatite/nZVI composite and phosphate anions was Fe3 (PO4)2. 8H2O (vivianite). The suggested adsorbent can be effectively employed up to five fixed-bed adsorption–desorption cycles and was also implemented to adsorb phosphate from real samples.

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17.
同步硝化反硝化工艺中DO浓度对N2O产生量的影响   总被引:1,自引:0,他引:1  
采用序批式生物膜反应器(SBBR),在连续曝气全程好氧的运行条件下,考察不同溶解氧浓度对同步硝化反硝化脱氮性能及N2O产量的影响.控制溶解氧浓度恒定在1、2、2.5和3 mg/L.结果表明,DO为2 mg/L和2.5 mg/L时,氨氮去除率分别为97.9%和98.5%,同步硝化反硝化率均为99%.DO为2 mg/L时,...  相似文献   

18.
The objectives of this study were to examine the application of the divalent cation bridging theory (DCBT) to improve settling, dewatering, and effluent quality in pilot-scale reactors and a full-scale system treating an industrial wastewater. This was accomplished by lowering the monovalent-to-divalent (M/D) cation ratio by direct divalent cation addition. Research has shown that the M/D ratio is a potential indicator for settling and dewatering problems at wastewater treatment plants, and M/D ratios above 2 have been associated with poor settling, dewatering, and effluent quality. The M/D ratio of the wastewater in this study ranged from 6 to 20. The cations studied were calcium and magnesium. Results showed that the addition of calcium improved floc properties compared to control reactors with no calcium addition. The reductions in sludge volume index, effluent chemical oxygen demand (COD), and effluent total suspended solids (TSS) were approximately 35, 34, and 55%, respectively, when the M/D ratio was decreased to approximately 2:1. In addition, the cake solids from a belt filter press simulator increased by 72% and the optimum polymer dose required for conditioning was reduced by 70% in the reactor fed the highest calcium concentration when compared to control reactors with no calcium addition. The addition of calcium also decreased the negative effect of high filamentous organism numbers. In general, the addition of magnesium (Mg2+) had similar effects on effluent quality and dewatering properties, although some differences were measured. A full-scale test using calcium addition was performed. Measurements of effluent quality and floc properties were performed before, during, and after the calcium (Ca2+) addition period. The average M/D ratio during these periods was 6.2, 4.6, and 14.0, respectively. The addition of Ca2+ decreased the effluent five-day biochemical oxygen demand, effluent TSS, and effluent COD. The increased Ca2+ concentration also improved dewatering measured by a decrease in specific resistance to filtration and capillary suction time. Overall, the addition of divalent cations to the pilot- and full-scale activated sludge systems improved floc properties and the data fit well with the DCBT.  相似文献   

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