脉冲式SBR法处理生活污水的脱氮特性试验研究

脉冲式SBR工艺是针对传统SBR工艺反硝化效果较差提出的一种新型的SBR运行方式。本试验在北京工业大学污水处理实验室采用真实的生活污水进行研究,考察脉冲式SBR在硝化-投加原水-反硝化这一循环反复过程中（等量进水）的脱氮性能。试验结果表明,出水TN〈2mg/L,去除率达到了96%以上。     

城市污水Al盐化学除磷的试验研究

针对新疆地区污水厂总磷去除效率有限,出水总磷存在超标排放风险的问题。试验中采用自配不同总磷含量的生活污水,通过小试试验,投加AlCl3进行试验室模拟化学除磷试验。研究结果表明:进水总磷浓度为2～4mg/L时,投加AlCl3/TP质量比为8.6;进水总磷浓度为6mg/L时,投加AlCl3/TP质量比上升到13.1,出水总磷浓度均<0.5mg/L,AlCl3投加不会改变污水的pH值,化学沉淀最佳时间为30min。建议设计除磷沉淀池的停留时间为25min～30min。     

IABR-IBAF工艺处理猪场稳定塘废水的实验研究

难降解有机物含量高且碳氮比失调是造成养猪场稳定塘废水难于处理的主要原因。本文采用基于固定化微生物技术的厌氧折流板（IABR）与曝气生物滤池（IBAF）组合工艺处理稳定塘废水，对比了IABR-IABF组合工艺与单一IBAF工艺的处理效果，研究了碱度和碳源对硝化反硝化过程的影响。组合工艺平均进水COD1532．6mg／L，平均出水为332．7mg／L，去除率为78％，NH3-N平均进水538．6mg／L，平均出水为12．3mg／L，去除率97．7％。以新鲜废水做反硝化阶段的碳源时TN去除率93％，可有效解决脱氮过程中的碳源成本问题。     

SBR法处理垃圾渗滤液及其同时硝化反硝化生物脱氮研究

采用SBR系统处理城市垃圾渗滤液，研究了不同C／N、130和MLSS对同时硝化反硝化脱氮效率的影响。结果表明：总氮去除率随着C／N、MLSS升高而上升；DO越低，总氮去除率越高；当进水CODCr与NH3-N浓度分别为420mg／L和112mg／L,DO和MLSS分别为1．5mg／L和5016mg／L时，CODCr、NH3-N及TN去除率分别为81．54％、96．57％和46．66％。根据试验结果，对同时硝化反硝化一个代表周期作了分析。     

稠油废水COD处理工艺研究

通过对多种絮凝剂的试验研究,筛选出UP-11混凝剂,在其投加量为2.4 mL/L时,油与COD去除效果最佳。同时在此基础上采用膜SBR法对絮凝出水做进一步处理,当运行条件为:进水0.5h、曝气4h、沉淀1h、排水0.5h时,出水完全达到国家规定的污水排放标准。     

采用生化-化学技术处理吗啉生产废水

针对吗啉生产废水的特点,制定处理工艺路线,通过生化试验和化学氧化试验,研究该工艺对废水COD和氨氮的处理效果,并确定生化各段停留时间及氧化剂投加量等工艺参数,最终开发出一套处理吗啉生产废水的工艺路线。试验结果表明:生化段试验进水COD平均7 725 mg/L,平均出水COD为168 mg/L,COD平均去除率为97.7%;进水氨氮平均浓度489 mg/L,出水氨氮平均浓度为2.3 mg/L,氨氮平均去除率为99.5%。最后经化学氧化处理后,出水COD60 mg/L,氨氮5 mg/L,达到GB 8978—1996《污水综合排放标准》一级标准。     

茄子秸杆活性炭对染料废水的吸附性能研究

以茄子秸秆为原料，ZnCl2为活化剂制备粉末状活性炭，主要研究了活性炭对染料废水的吸附性能；以活性红X-3B和酸性蓝RL为模型染料，考察了染料初始浓度、pH值、活性炭投加量和吸附时间等对染料脱色率的影响。结果表明，染料初始浓度和活性炭投加量对染料脱色率影响较大。初始浓度为300mg／L时，活性炭的最佳投加量分别为1g／L和1．4g／L；在最佳工艺条件下，脱色率分别在93％和98％以上，COD去除率分别为94．5％和86．4％，出水水质达到国家一级《纺织染整工业水污染物排放标准》（GB 4287—1992）。     

高海拔寒冷地区污水处理厂地表水准Ⅳ类改造工程研究

为提高西部某污水厂出水水质达到地表水准Ⅳ类标准,对该水厂进行工程改造及优化运行。通过采用投加耐冷微生物、好氧池投加填料,改造微生物膜——活性污泥复合工艺,以及调试运行参数以及间歇曝气等措施观察COD、氨氮、TN和TP去除效果的变化,最后辅以高效混凝沉淀池保证出水达标。实验结果表明:好氧池末端DO降到1mg/L时,出水TN浓度减少到17.57mg/L,TP浓度减少到0.48mg/L,氨氮和COD仍去除稳定;TN去除效果随着分点进水量增加而提高,出水TN平均浓度降到14.13mg/L;污泥回流比由100%减少到60%,TN去除率提高,出水TN平均浓度降到13.14mg/L;通过将好氧区改为间歇曝气后,氨氧化菌和反硝化除磷菌成为优势菌种,加强了氮磷的去除,出水TN、TP浓度分别为11.80mg/L和0.35mg/L,TP仍需。经过优化运行后出水水质稳定达到要求,并有效的解决了氧化沟反应池内溶解氧盈余、污泥浓度控制等问题,同时起到很好的节能降耗效果。     

SBR系统中pH与MLSS对同步硝化反硝化的影响

本文研究了SBR系统中pH值、MISS的变化对同步硝化反硝化的影响。结果表明：在进水水质和反应条件相同时，将pH值控制在8．5，出水水质最好，COD去除率达到90．0％，总氮去除率达到99．4％；在进水水质和反应条件相同，反应器中MLSS为520mg／L时，出水水质最好，COD去除率达到85馏％，总氮去除率达到99．1％。     

化学生物絮凝-悬浮填料移动床组合工艺处理城市污水研究

采用化学生物絮凝和悬浮填料移动床组合工艺处理城市污水。通过改变化学生物絮凝工艺中投加的混凝剂种类和投加量、改变悬浮填料移动床工艺中水力停留时间和气水比取得不同工况条件下各类污染指标的去除效果。采用该组合工艺,当进水COD(89～319)mg/L,TP(1.24～4.26)mg/L,SS(44～240)mg/L,NH4 -N(14.7～36.3)mg/L时,出水可达到COD<50mg/L,TP<0.5mg/L,SS<20mg/L,NH4 -N<5mg/L。     

篦齿眼子菜对废水中氮和磷的去除行为研究

一些常见的沉水草本植物对水质具有较强的净化作用,能够有效控制氮和磷的浓度。本试验通过模拟氮、磷污染的水质条件,采用篦齿眼子菜对氮、磷营养盐的吸附和去除效果进行研究。结果表明:设定模拟废水中的初始总氮(TN)浓度在1~50 mg/L范围内,培养30天后的植株对总氮的去除率最高可达85.4%,随着初始培养环境中总氮浓度的增加,去除效率呈下降的趋势;模拟废水水体中的总磷浓度范围为0.2~10.0 mg/L时,对总磷(TP)去除效率最高为78.3%。使用蓖齿眼子菜对实际的废水进行氮、磷营养盐的去除处理,效果较好。由此可见,水生植物富集废水中高浓度营养盐的能力具有较大的应用前景,本研究可为蓖齿眼子菜应用于废水预处理工艺提供可靠的理论支持。     

Biological treatment of anaerobically digested palm oil mill effluent (POME) using a Lab-Scale Sequencing Batch Reactor (SBR)

The production of highly polluting palm oil mill effluent (POME) has resulted in serious environmental hazards. While anaerobic digestion is widely accepted as an effective method for the treatment of POME, anaerobic treatment of POME alone has difficulty meeting discharge limits due to the high organic strength of POME. Hence, subsequent post-treatment following aerobic treatment is vital to meet the discharge limits. The objective of the present study is to investigate the aerobic treatment of anaerobically digested POME by using a sequencing batch reactor (SBR). The SBR performance was assessed by measuring Chemical Oxygen Demand (COD), Biochemical Oxygen Demand (BOD) and Total Suspended Solids (TSS) removal as well as Sludge Volume Index (SVI). The operating pH and dissolved oxygen concentrations were found to be 8.25–9.14 and 1.5–6.4 mg/L, respectively, throughout the experiment. The experimental results demonstrate that MLVSS, OLR and sludge loading rate (SLR) play a significant role in the organic removal efficiency of SBR systems and therefore, further investigation on these parameters was conducted to attain optimum SBR performance. Maximum COD (95–96%), BOD (97–98%) and TSS (98–99%) removal efficiencies were achieved at optimum OLR, SLR and MLVSS concentration ranges of 1.8–4.2 kg COD/m³ day, 2.5–4.6 kg TSS/m³ day and 22,000–25,000 mg/L, respectively. The effluent quality remained stable and complied with the discharge limit. At the same time, the sludge showed good settling properties with average SVI of 65. It is envisaged that the SBR process could complement the anaerobic treatment to produce final treated effluent which meets the discharge limit.     

Operation strategy of a sequencing batch reactor for simultaneous removal of wastewater organic matter and nutrients

The Sequencing Batch Reactor (SBR) system employing activated sludge process is an alternative wastewater treatment technology. A cycle of the conventional SBR system generally consists of five periods, with complete aeration during the React period to oxidize the organic matter and nitrify the ammonium-nitrogen of wastewater. Laboratory-scale reactors were used to evaluate the feasibility of incorporating alternative aerobic-anoxic-aerobic stages within the React period for simultaneous removal of organic matter, N and P. Two cycles of SBR process per day were maintained.Under the operation strategy of 0.75-h fill, 8-h react (with continuous aeration), 3.25-h settle, draw and idle periods, the treatment performance became consistent after running the system for two to four cycles (1–2 days). The percentages of both BOD₅ and COD removal were around 94% from Cycle 2 onwards, the BOD₅ content dropped from initial 251 mg L⁻¹ to less than 14 mg L⁻¹ in the final effluent. A steady nitrification (about 97%) was obtained from Cycle 4 onwards, with 1 mg NH₄⁺-N L⁻¹ and 25 mg NO₃⁻-N L⁻¹ present in the final effluent. This suggested that the time required for SBR system to acclimate and reach an equilibrium state was relatively short when compared with the time needed for continuous flow activated sludge system. The findings also show that 4-h aeration during the react period was long enough to achieve more than 90% nitrification. With the incorporation of a 3-h anoxic stage after the initial 4-h aeration of the react period, a satisfactory denitrification process was observed, with nitrate level dropped from 27 to around 8 mg L⁻¹ within 3 h. The second aeration stage did not cause significant change in wastewater nitrogen content. The wastewater phosphate content declined rapidly during the initial 4-h aeration and P-release was not observed during the anoxic stage. A slight reduction of P was found in the second aeration stage suggesting that more P-uptake occurred in this stage. A 12-h cyclic SBR system with the incorporation of 4-h aerobic, 3-h anoxic and final 1-h aerobic stages into the 8-h react period was demonstrated to be able to remove C, N and P simultaneously.     

混凝沉淀SBR活性炭过滤处理垃圾渗滤液

采用沉淀-SBR-活性炭过滤复合工艺对城市垃圾渗滤液进行处理，确定混凝、SBR和活性炭过滤的最佳参数。结果表明，当进水CODcr 2500mg／L、氨氮在900mg／L的条件下，经该系统处理后，出水CODcr均在300mg/L以下，氨氮在20mg/L以下。CODcr去除率达90％以上，氨氮去除率达98％以上，达到去除有机物和氨氮的较好效果。     

双滤料曝气生物滤池污水深度处理的研究

采用陶粒、沸石为滤料的曝气生物滤池对生物处理系统二级出水进行深度处理回用,研究了水力停留时间、气水体积比对污染物COD和NH3-N处理效果的影响。结果表明：水力停留时间为8 h,气水体积比为3∶1的工况下,处理效果较好。稳定运行后,出水COD、BOD5、SS、NH3-N、TP和色度平均值分别为15.6 mg/L、3.2 mg/L、8.5 mg/L、1.24 mg/L、0.40mg/L和8度,达到《城市污水再生利用—城市杂用水水质》（GB/T 18920-2002）标准,出水可用于道路清扫、绿化等。     

组合工艺处理上虞市总干渠微污染原水的中试启动研究

根据上虞市总干渠微污染原水水质特点,采用混凝沉淀＋曝气生物沸石滤池（ZBAF）＋活性炭滤池（GAC）组合工艺进行中试研究,考察了运行初期ZBAF的挂膜启动情况和组合工艺整体对此类水体的处理效果。结果表明：ZBAF在水温25℃~29℃、气水比1∶2、滤速2.5m/h下运行20天即挂膜成功;挂膜成熟后,组合工艺在5m/h滤速下对浊度、氨氮、UV254、CODMn的去除率分别达99%、85%、70%和75%,出水水质良好,浊度、氨氮、CODMn分别稳定在0.5NTU、0.1mg/L、1.5 mg/L以下。