油田含聚合物污水微生物处理初步研究

对油田日益增多的并且对环境造成潜在危害的而现有污水处理工艺难于处理的含聚合物污水进行微生物处理初步研究。结果表明,从油田污水污泥中分离得到的七株聚丙烯酰胺(PAM)降解菌在合适的营养条件下协同作用,对大港油田的含PAM的污水具有较好的处理效果。经过3d的处理,微生物菌群将补充了磷和氮的污水的COD降低了87.7%;经过18d的处理,微生物菌群将补充了磷的污水的COD由13499mg.L-1降低为283 mg.L-1,降低幅度达到了97.9%。因而这7株PAM降解菌对含PAM污水处理具有很好的应用前景。     

驯化复合微生物菌群处理废弃钻井泥浆活性研究

【背景】油田废弃钻井泥浆含油量高,污染物复杂,环境危害严重,现有技术无法满足日益发展的石油开采行业在废弃钻井泥浆处理方面的需求。生物法处理废弃钻井泥浆,工艺简单,成本低,但也存在局限,包括广谱性差、处理周期长、原油降解率低、泥浆性质波动冲击工艺稳定性等。【目的】构建一种高活性和高环境耐受能力的微生物菌群,分析遗传稳定性和综合性能,提高废弃钻井泥浆处理技术水平。【方法】通过定向富集、诱导驯化的方法,提高活性群落对石油烃乳化降解效率,降低共代谢底物反馈抑制和群体感应系统敏感度,分析群落结构和活性成员的种群类别,分析乳化降解石油烃的活性对应关系。【结果】从含油量超过12g/kg、芳烃-胶质沥青含量超过80%、含盐量超过8g/kg的钻井废弃泥浆中富集得到1个活性微生物菌群,主要成员包括假单胞菌属(Pseudomonas)、根瘤菌属(Rhizobium)、红细菌属(Rhodobacter)和嗜碱还原硫素杆菌(Dethiobacter alkaliphilus),比例分别达27.44%、20.73%、8.54%和7.93%。在超过22代的连续驯化过程中,假单胞菌(Pseudomonas)、类希瓦氏菌(Alishewanella)和盐单胞菌(Halomonas)数量达92.72%,菌群结构和活性趋于稳定。处理钻井废弃泥浆5 d,土壤含油率由处理前的12403 mg/kg降低到处理后的42 mg/kg,综合脱油效率99.67%,石油烃降解率68.9%。分析微生物群落作用前后石油饱和土壤中的石油含量变化,原始含油量261 g/kg,处理后含油量305 mg/kg,脱油率99.88%。【结论】菌群驯化后活性稳定,耐受高盐环境能力强,在钻井废弃泥浆、含油土壤及油泥污染物处理方面具有很强的工业应用潜力。     

羊蹄植株的水培养以及对污水的净化作用研究

用武汉沙湖污水培养不同大小羊蹄植株,以观察羊蹄植株的生长状况,结果表明:湿生植物羊蹄完全可以悬浮生长于污水之中,且生长极好,当培养1d后可长大量新须根(0.3—0.5cm),培养到第12d可长须根23.5cm左右;测定其生物量时发现植株越大其生物量增加越大,但植株越小其净增加生物量越大(每克植物每天的增加量);当测定羊蹄对污水的蒸腾加蒸发量时,发现最大量达到420mL/d,12d总量达1820mL,由于羊蹄植株的作用使污水的透光率由96上升到99.1(自来水为100),即较浑浊的污水已变为几乎透明的清水,通过测定污水的污染指标发现,由于6号羊蹄植株的净化使污水COD由原来的49mg/L降为28mg/L、氨氮由原来的328mg/L降为82mg/L、磷由原来的2.931mg/L降为0.124mg/L,因此,本实验证明了羊蹄植株是治理污水的优良品种之一。       

生物沸石反应器在微污染水源水处理中的应用

随着我国经济社会的发展，水资源短缺和水质问题已成为制约发展的重要因素。因此，必须加强城市污水治理、提高再生水利用率。传统生物滤池在处理污水和再生水的过程中存在诸多问题，如占地面积大、易堵塞等。本文通过使用天然斜发沸石制备的生物沸石反应器进行试验研究，结果显示沸石具有良好的选择性和污染物去除效果，且抗冲击负荷能力强。得到主要结论如下：通过静态吸附试验得出当进水浊度小于5 NTU时，沸石出水浊度可降至0.2 NTU以下；当进水CODMn质量浓度大于3 mg/L时，沸石出水CODMn质量浓度均低于4 mg/L；当进水氨氮质量浓度小于8mg/L时，沸石出水氨氮浓度均低于1 mg/L。说明沸石具有良好的选择性。     

功能微生物强化生物流化床工艺处理工业园区废水的研究

本研究采用功能微生物强化生物流化床工艺处理丽水市工业园区废水,研究表明:出水化学需氧量低于50 mg/L,氨氮低于5 mg/L,总氮低于15 mg/L,去除率分别达到85%、85%、60%,出水达到《城镇污水处理厂污染物排放标准(GB 18918-2002)》一级(A)标准。功能微生物强化生物流化床工艺在污水处理中具有很好的应用价值,可用于城镇污水处理厂提标改造等。     

城市周边生活污水排放对绿地土壤环境质量的影响

大城市郊区的小型居住区,将生活污水未经处理直接排入附近的绿地是比较常见的.这种直接排放虽然利用了有限水源,但对绿地土壤带来环境影响.为了研究这类排放对周边土壤环境的影响,选择了京郊一处接受附近生活污水直接排放的绿地,取其污水排放口附近的土壤样品为实验对象,以远离该点的土样为对照来研究生活污水排放对周边土壤环境质量的影响.模糊聚类分析结果表明:与对照点相比,生活污水排放提高了排放口附近土壤的养分含量,土壤pH值由8.9降低至7.32,有机质含量由1.7873%提高到5.9455%,钾含量由220 mg/kg提高到1230 mg/kg,磷含量由11.8 mg/kg提高到150.72mg/kg,全氮含量由0.1078%提高到0.5325%,重金属铅含量由52.87 mg/kg提高到129.53mg/kg、镉含量由0.7525mg/kg提高到2.5692mg/kg.铅含量达到了国家二级标准,而镉含量超过了国家三级标准,存在严重的土壤环境污染.     

短程反硝化菌株FDN-1的分离鉴定及其脱氮性能

从富集的活性污泥菌群中,筛选得到反硝化菌株FDN-1。通过对菌株形态观察、生理生化鉴定以及16SrDNA序列分析,确定该菌株为黄杆菌属（Havobacterium mizutaii）。以N02---N为氮源、甲醇为碳源进行驯化,亚硝酸盐氮浓度在200-400mg／L范围时,总氮去除率均在90％以上;脱氮能力验证结果表明,该菌株能够处理含亚硝酸盐的污水,进水亚硝酸盐氮浓度不能超过600mg／L。     

甲氰菊酯对意大利蜜蜂生存、生理和肠道菌群的影响

【目的】杀虫剂甲氰菊酯广泛应用于农业生产中,但有关该杀虫剂对蜜蜂健康影响的研究较少。本研究旨在探究甲氰菊酯对意大利蜜蜂Apis mellifera ligustica生存、取食、免疫和解毒相关基因表达以及肠道菌群的影响。【方法】利用亚致死浓度的甲氰菊酯饲喂意大利蜜蜂7 d后,统计各组意大利蜜蜂的生存率和取食量;采用荧光定量PCR技术检测蜜蜂解毒和免疫相关基因表达的变化;利用16SrDNA测序技术检测蜜蜂肠道菌群组成结构的变化。【结果】甲氰菊酯能显著降低蜜蜂的生存率和糖水取食量（P<0.05）;甲氰菊酯显著抑制了蜜蜂Hymenoptaecin、Apidaecin和Cyp9q1的表达（P<0.05）,5 mg/L剂量的甲氰菊酯显著诱导了Defensin的上调表达（P<0.05）。与对照相比,5 mg/L和1 mg/L剂量的甲氰菊酯对Abaecin表达的影响虽无显著性差异,但是5 mg/L处理组Abaecin的表达水平显著高于1 mg/L处理组的（P<0.05）;甲氰菊酯对意大利蜜蜂肠道菌群的Alpha多样性和Beta多样性无显著影响,但对特定肠道菌的丰度造成了影响。【结论】甲氰菊酯的曝露可能对意大利蜜蜂的免疫、解毒系统以及肠道菌群的组成产生了一定的影响。     

磷对藻类生长及污水净化的影响

在室内模拟氧化槽中比较研究了污水中不同磷含量及氮磷比例对藻类生长及污水净化的影响。原污水中氮含量均为20mg/L,磷含量分别为1.25、2.50、5、10mg/L,结果发现原污水中的N/P为20/2.5时,藻类净生产量最高,污水净化效果最好。     

一组高效喹啉降解复合菌群的构建及其降解特性

【背景】喹啉是一种典型的含氮杂环污染物,广泛存在于焦化废水,具有致畸、致癌、致突变作用,易通过水体污染环境。微生物技术因其绿色高效的特点,被认为是喹啉废水污染最有前景的修复手段之一。【目的】筛选得到一组高效喹啉降解复合菌群,实现含喹啉废水的高效工业化处理。【方法】使用逐级递增驯化法从焦化废水厂污泥中筛选出一组高效喹啉降解复合菌群,结合形态学观察并通过酶活测定、底物广谱性研究,完成对该复合菌群的初探。然后将该复合菌群的培养pH、温度、转速、装液量、接菌量、不同浓度外加碳氮源进行单因素优化,结合优化结果以喹啉降解率为目标进行响应面优化,并通过降解动力学研究喹啉对复合菌群降解行为的影响。【结果】分离出可30 h降解1 500 mg/L喹啉的高效复合菌群,可以降解多种含氮杂环化合物;响应面优化结果表明,当pH、温度、转速分别为6.8、30 ℃、200 r/min时,降解率最高达66%;降解动力学分析发现,当喹啉浓度为1 154 mg/L时,比降解率最大高达60.0 mg/(L·h)。【结论】该复合菌群具有高效喹啉降解能力和底物降解广谱性,为微生物高效处理含喹啉废水的工业化处理提供了良好基础。     

含油废水对秋茄幼苗的几个生理生态指标的影响

研究了５种不同浓度的含油废水对 秋茄幼苗的叶片叶绿素含量、过氧化氢酶活性、游离游离脯氨酸含量、含水量、相对电导率与生物量、存活率、茎高生长量等生理生态的指标的影响。结果表明：５０ｍｇ／Ｌ和１００ｍｇ／Ｌ浓度组不仅对植株无不良影响,而且能促进生长;２００ｍｇ／Ｌ组植株的某些生理生态 到影响,但整体上生长正常;４００ｍｇ／Ｌ和８００ｍｇ／Ｌ组则对植株各项指标产生显著或极显著影响,甚至引起个体死亡。因此     

Impacts of Multiwalled Carbon Nanotubes on Nutrient Removal from Wastewater and Bacterial Community Structure in Activated Sludge

Background

The increasing use of multiwalled carbon nanotubes (MWCNTs) will inevitably lead to the exposure of wastewater treatment facilities. However, knowledge of the impacts of MWCNTs on wastewater nutrient removal and bacterial community structure in the activated sludge process is sparse.

Aims

To investigate the effects of MWCNTs on wastewater nutrient removal, and bacterial community structure in activated sludge.

Methods

Three triplicate sequencing batch reactors (SBR) were exposed to wastewater which contained 0, 1, and 20 mg/L MWCNTs. MiSeq sequencing was used to investigate the bacterial community structures in activated sludge samples which were exposed to different concentrations of MWCNTs.

Results

Exposure to 1 and 20 mg/L MWCNTs had no acute (1 day) impact on nutrient removal from wastewater. After long-term (180 days) exposure to 1 mg/L MWCNTs, the average total nitrogen (TN) removal efficiency was not significantly affected. TN removal efficiency decreased from 84.0% to 71.9% after long-term effects of 20 mg/L MWCNTs. After long-term exposure to 1 and 20 mg/L MWCNTs, the total phosphorus removal efficiencies decreased from 96.8% to 52.3% and from 98.2% to 34.0% respectively. Further study revealed that long-term exposure to 20 mg/L MWCNTs inhibited activities of ammonia monooxygenase and nitrite oxidoreductase. Long-term exposure to 1 and 20 mg/L MWCNTs both inhibited activities of exopolyphosphatase and polyphosphate kinase. MiSeq sequencing data indicated that 20 mg/L MWCNTs significantly decreased the diversity of bacterial community in activated sludge. Long-term exposure to 1 and 20 mg/L MWCNTs differentially decreased the abundance of nitrifying bacteria, especially ammonia-oxidizing bacteria. The abundance of PAOs was decreased after long-term exposure to 20 mg/L MWCNTs. The abundance of glycogen accumulating organisms (GAOs) was increased after long-term exposure to 1 mg/L MWCNTs.

Conclusion

MWCNTs have adverse effects on biological wastewater nutrient removal, and altered the diversity and structure of bacterial community in activated sludge.     

Use of claydite-immobilized oil-oxidizing microbial cells for purification of water from oil

Oil-oxidizing bacteria were isolated from oil-polluted soil and water samples and identified as Acinetobacter calcoaceticus K-4, Nocardia vaceinii K-8, Rhodococcus erythropolis EK-1, and Mycobacterium sp. K-2. It was found that immobilization of the bacteria on an expanded clay aggregate accelerated their growth and consumption of hydrocarbon substrates. It was also found that water polluted with 100 mg/l oil could be purified with Rhodococcus erythropolis EK-1 and Nocardia vaceinii K-8 cells immobilized in this way. The dependence of the degree of water purification on its flow rate, aeration, and availability of nitrogen and phosphorus sources was determined. The efficiency of water purification from oil by immobilized Rhodococcus erythropolis EK-1 cells at high flow rates (of up to 0.68 l/h), low aeration (of 0.1 l/l per min) and an intermittent supply of 0.01% diammonium phosphate reached 99.5-99.8%.     

石油污染土壤水改旱田后污染物组份及微生物群落结构变化

对沈抚灌区水改旱田不同年限土壤的石油污染物浓度及组分进行了分析,并采用变性梯度凝胶电泳和磷脂脂肪酸分析方法,分析了污染土壤微生物群落结构的变化.结果表明：1)石油污染土壤水改旱田后,年限越长,总多环芳烃在总石油烃中所占的比重越大,高分子量多环芳烃在总多环芳烃中所占比重也越大;2)总磷脂脂肪酸量与总石油烃呈显著正相关,与总多环芳烃相关性不显著;3)两种方法对土壤微生物群落结构的分析得出的结论一致,石油污染土壤微生物群落结构主要与其相对地理位置有关,当污染物的浓度达到一定程度时,土壤微生物群落结构会发生明显的改变.     

Cosmopolitan heterotrophic microeukaryotes are active bacterial grazers in experimental oil-polluted systems

We investigated the population dynamics and prevailing 18S rDNA phylotypes of microeukaryotes (≤ 10 μm) in microcosms containing seawater from either an unpolluted oligotrophic site or a chronically oil-polluted mesotrophic site of the Aegean Sea, amended with crude oil (100 p.p.m. final concentration) and crude oil plus emulsifier (10 p.p.m. final concentration). The addition of oil alone did not result in an important increase of bacteria or their predators, while the addition of oil and emulsifiers caused an important increase in bacteria followed by nanoflagellate predator response. We observed an important shift in the microeukaryotic community structure, which was characterized by the dominance of the same heterotrophic nanoflagellates in all oil-polluted treatments. Thus, the resulting 18S rDNA phylotypes were dominated (48.1–82.4%) by Paraphysomonas foraminifera in all treatments containing crude oil and crude oil plus emulsifier. The origin of the seawater, i.e. unpolluted versus chronically oil-polluted, had no effect on the dominant eukaryote, suggesting that the ubiquitous P. foraminifera is an effective opportunist in oil-polluted aquatic systems. The next dominant phylotypes were Monosiga brevicollis (≤ 27.0%) and Pseudobodo tremulans (≤ 23.1%). However, the addition of the emulsifier increased the dominance of P. foraminifera but decreased that of M. brevicollis and P. tremulans . Our study revealed that these dominant oil-tolerant eukaryotes, which are commonly found in the marine environments, are important grazers of bacteria and as such their dynamics should be taken into account in bioremediation practices in situ .     

Investigation on bioremediation of oil-polluted wetland at Liaodong Bay in northeast China

An investigation on the effect of various microbes on degradation was carried out as part of the study on bioremediation of oil-polluted wetland at LiaoDong Bay in northeast China. The method used involved direct inoculation of selected bacteria, which were capable of degrading oil, to the soil samples. The combination of various bacteria showed better results in terms of oil degradation than any single ones due to their synergetic effects. The operation conditions [pH 8.0, 25°C, C/N/P (40:5.6:1)] for these bacteria to degrade the oil content in the soil samples were also studied and optimized. Addition of appropriate surfactants was helpful for bacteria growth, thus favoring the oil degradation. For instance, after adding Tween 80 (300 mg/kg) for 8 days, the number of bacteria was amplified 6.22 times and the rate of oil degradation increased by 20%. Adequate amount of H₂O₂ was also beneficial for microbes to decompose oil. However, overdosage may cause the death of the bacteria. The addition of 400 mg/l H₂O₂ each time was suitable. Seven thousand milligrams of H₂O₂ was added entirely in 11 days, and the rate of oil degradation increased significantly from 27% (without H₂O₂) up to 67%. The study clearly demonstrated that the direct soil inoculation was an effective method for environmental bioremediation.Foundation item: The National Key and Fundamental Research and Development Programming Projects (863, No2002AA648010)     

柴油降解菌的筛选及降解能力研究

从修造船业周围油污污染土样中分离纯化出9株以柴油为唯一碳源的高效降解菌,其中2~#菌为微球菌属,确定为优势菌株,其降解率高达到65.7%;分析了接种量、柴油浓度、pH、温度、转速对2~#微球菌降解柴油的影响.结果表明,该菌株最适宜生长条件接种量为1.0ml/L、柴油浓度为1.4g/L、pH7.0、温度为35℃、转速为160 r/min.     

Use of bacterial acc deaminase to increase oil (especially poly aromatic hydrocarbons) phytoremediation efficiency for maize (zea mays) seedlings

Oil presence in soil, as a stressor, reduces phytoremediation efficiency through an increase in the plant stress ethylene. Bacterial 1-aminocyclopropane-1-carboxylic acid (ACC) deaminase, as a plant stress ethylene reducer, was employed to increase oil phytoremediation efficiency. For this purpose, the ability of ACC deaminase-producing Pseudomonas strains to grow in oil-polluted culture media and withstand various concentrations of oil and also their ability to reduce plant stress ethylene and enhance some growth characteristics of maize and finally their effects on increasing phytoremediation efficiency of poly aromatic hydrocarbons (PAHs) in soil were investigated. Based on the results, of tested strains just P9 and P12 were able to perform oil degradation. Increasing oil concentration from 0 to 10% augmented these two strains population, 15.7% and 12.9%, respectively. The maximum increase in maize growth was observed in presence of P12 strain. Results of high-performance liquid chromatography (HPLC) revealed that PAHs phytoremediation efficiency was higher for inoculated seeds than uninoculated. The highest plant growth and PAHs removal percentage (74.9%) from oil-polluted soil was observed in maize inoculated with P12. These results indicate the significance of ACC deaminase producing bacteria in alleviation of plant stress ethylene in oil-polluted soils and increasing phytoremediation efficiency of such soils.     

Kinetic modeling of aerobic biodegradation of high oil and grease rendering wastewater

Batch scale activated sludge kinetic studies were undertaken for the treatment of pet food wastewater characterized by oil and grease concentrations of up to 21,500 mg/L, COD and BOD concentrations of 75,000 and 60,000 mg/L, respectively as well as effluent from the batch dissolved air flotation (DAF) system. The conducted kinetics studies showed that Haldane Model fit the substrates and biomass data better than Monod model in DAF-pretreated wastewater, while the modified hydrolysis Monod model better fit the raw wastewater kinetic data. For the DAF pretreated batches, Haldane Model kinetic coefficients k, K(S), Y and Ki values of 1.28-5.35 g COD/g VSS-d, 17,833-23,477 mg/L, 0.13-0.41 mg VSS/mg COD and 48,168 mg/L, respectively were obtained reflecting the slow biodegradation rate. Modified hydrolysis Monod model kinetic constants for the raw wastewater i.e., k, K(S), Y, and K(H) varied from 1-1.3 g COD/g VSS-d, 5580-5600 mg COD/l, 0.08-0.85 mg VSS/mg COD, and 0.21-0.66 d(-1), respectively.     

利用市政污水培养Chlorella vulgaris生产生物柴油

为了考察利用南昌市政污水规模化培养富油微藻生产生物柴油,同时达到净化污水的目的,取南昌市青山湖污水处理厂未经任何处理的市政污水作为普通小球藻(Chlorella vulgaris)生长的培养液。监测了C.vulgaris在市政污水中连续培养10 d的特定生长率、生物质产量以及与之相关的市政污水中氨氮(NH4+-N)、总磷(TP)、化学需氧量(COD)、总悬浮固体(TSS)和挥发性悬浮固体(VSS)的清除情况。实验表明:营养物质的水平显著地影响了C.vulgaris的生长。C.vulgaris的生长率在培养8 d后达到最大,OD680为2.856,总的生物质产量日均最大积累速率为0.01 g/L,油脂含量为干质量的18%,油脂的平均日产量为0.001 g/L。培养10 d内NH4+-N、TP和COD的去除率分别为50.0%、32.1%和26.0%,TSS和VSS的日平均去除速率分别为0.01 g/L和0.006 1 g/L。