利用煮茧废水培养钝顶螺旋藻的初步研究

本文对缫丝厂煮茧废水和Ｚａｒｒｒｏｕｋ培养基的主要营养成份进行了分析比较，筛选出了适合钝顶螺旋藻（Ｓｐｉｒｕｌｉｎａｐｌａｔｅｎｓｉｓ）在煮茧废水中生长繁殖的培养基和与之相适应的驯化藻种。经室外１５０升煮茧废水扩大培养，干藻生物量可达１６．０３克／米￣２·天，粗蛋白含量达５８．６％，含有１７种氨基酸。比用Ｚａｒｒｏｕｋ培养基培养的螺旋藻产量提高１５．７８％，成本减少８０％以上。培养后的煮茧废水ＣＯＤ和ＢＯＤ＿５浓度低于我国污水综合排放标准。研究结果表明：采用本实验室筛选的煮茧废水培养基和驯化藻种，在煮茧废水中大量培养螺旋藻，实现废水资源化是可行的，具有明显的经济效益和环境效益。     

NaHSO3对紫球藻生长和物质积累的影响

为优化紫球藻营养盐配方,降低养殖成本,提高生物量和物质积累,研究了不同浓度的安全环保的植物循环光合磷酸化促进剂——NaHSO3 (≤4mol/L)溶液对盐生杜氏藻生长和光合色素含量及蛋白含量积累的影响.结果表明,NaHSO3可显著促进盐生杜氏藻生长,提高叶绿素a(Chl a)和b(Ch1 b)含量、叶绿素总量(Chl)、类胡萝卜素含量(Car)和蛋白含量;促进效应随浓度增加表现为先升后降,低浓度(＜ 1mol/L)效应较好,以0.50mol/L为最佳.     

一株降解苯酚微生物的研究

从污泥中分离出可在舍100mg/L苯酚的LIB培养基上生长的菌株，其中JF-2生长情况最好。通过逐级驯化，JF-2的降解苯酚能力明显提高，可在以苯酚为唯一碳源的培养基中降解苯酚并生长。在接种量为1％时，JF－2在24h内将300mg／L的苯酚完全降解。该菌的最适生长和降解温度为30℃，并能在pH5．5～9内降解苯酚。河水中的天然微生物降解苯酚的能力弱，需7天才可将200mg/L的苯酚完全降解。     

刚毛藻对Cu、Fe、Zn的耐受与污染控制研究

研究刚毛藻对Cu、Fe、Zn的耐受情况。实验设计了3种重金属的浓度,分别为00、.5 mg/L1、.0 mg/L、2.5 mg/L、5.0 mg/L、7.5mg/L1、0 mg/L的培养液,培养期间观察记录刚毛藻的长势,测定藻类生物量及叶绿素a的含量变化,研究藻体对模拟水中3种重金属的去除动态及实际去除效果。结果表明,3种重金属在低浓度(0.5—2.5 mg/L)时藻体长势较好;浓度达到5mg/L时开始出现毒害现象,表现为叶绿素a含量下降趋势;浓度达到7.5mg/L以上时藻体死亡。水体中有效Cu、Fe、Zn浓度较低时,藻体对3种重金属去除效果较好,较高浓度时由于毒害作用使其对3种重金属的去除能力下降。     

螺旋藻与藻胆蛋白

螺旋藻是一种经济微藻 ,除可用作食品、饲料、饵料外 ,在医疗保健、精细化工和化妆品等诸多领域均有着广阔的应用前景。藻胆蛋白是存在于螺旋藻等藻类藻胆体中的一类捕光色素复合蛋白 ,具有很高的生物学基础研究与开发应用价值。     

超声波降解苯酚溶液的研究

以20mg/L的苯酚为研究对象,在超声波槽中对超声波作用于苯酚的降解效率和降解规律进行了初步研究。实验表明:单一的超声波对苯酚的降解率是很低的,不超过6.3%;而在苯酚溶液中加入H2O2后,降解率提高了大约3倍;酸性条件利于苯酚的降解,而在碱性条件下苯酚几乎没有降解。     

磁性活性炭吸附苯酚的初步研究

本文研究了磁性活性炭对苯酚的吸附性能;探讨了Cd2＋对苯酚在磁性活性炭上吸附的影响。目的是对磁性活性炭进行研究,以及为在实际废水中吸附处理苯酚提供参考。结果表明,磁性活性炭对苯酚的吸附过程符合拟二级动力学模型,R2为0.9935;与Freundlich吸附模型相比,Langmuir吸附模型能更好地描述磁性活性炭对苯酚的吸附行为;在不影响去除率的情况下,Cd2＋的存在使苯酚吸附处理最佳浓度由30 mg/L增大至50 mg/L;同时,Cd2＋对磁性活性炭和活性炭吸附苯酚分别具有促进和抑制作用。针对苯酚的吸附去除率,当无Cd2＋时,磁性活性炭的比活性炭的低10.65%～20.2%;当有Cd2＋时,磁性活性炭的比活性炭的高0.3%～7.71%。     

土壤铅污染对桑树生长及桑叶品质的影响研究

运用盆栽试验和室内实验相结合的方法,研究了土壤不同浓度铅污染对桑树生长及桑叶品质的影响.结果表明,低浓度铅(≤200mg/kg干土)处理使桑树的株高呈现上升趋势,中、高浓度铅(≥300mg/kg干土)处理使桑树的株高呈现下降趋势;而桑叶中叶绿素总量、可溶性糖含量、淀粉含量均随着外加铅浓度梯度的增加呈先上升后下降的趋势,转折点为200mg/kg干土(土壤一级标准).土壤中的铅浓度超过200mg/kg干土后,桑树生长及桑叶品质开始受到明显胁迫.     

超临界水氧化法处理酚水溶液初步研究

为探讨在超临界状态下苯酚水溶液的氧化分解情况,应用了间歇式高压釜进行了实验。实验结果表明：停留时间增加,转化率提高;在超临界条件下,反应的温度和压力对苯酚的氧化分解影响不大;在氧气充足的情况下,苯酚浓度的增加不会对苯酚的分解转化率产生大的影响。     

不同浓度Pb对向日葵幼苗生长及抗氧化系统的影响

通过水培实验,研究了不同浓度Pb对向日葵幼苗生长及抗氧化系统的影响。结果表明:低浓度的铅会在一定程度上促进向日葵的生长,使MDA含量减少,愈创木酚过氧化物酶(GPX)活性降低;而高浓度的铅会对向日葵的生长产生毒害作用,使MDA含量增加,愈创木酚过氧化物酶(GPX)活性增强。     

苯酚降解菌Y_1的分离与鉴定

旨在从微生物降解的角度出发,解决苯酚大量应用带来的含酚废水对环境污染问题.采用富集培养、驯化筛选和平板划线等方法,从某化工厂废水中分离得到4株苯酚降解菌.利用4-氨基吡啉分光光度法测定其苯酚降解能力,筛选出降解率较高的菌株Y_1.经形态学观察、生理生化鉴定和16S rDNA序列分析,将该菌初步鉴定为苏云金芽孢杆菌(Ba...     

HY1141和HY241菌产生的絮凝剂絮凝性能及水处理应用研究

从土壤中分离筛选得到絮凝剂产生菌HY1141和HY241，对高岭土悬浊液进行絮凝性能试验研究。试验结果表明：HY1141絮凝荆在ptt值为3．0时，絮凝率达到97．2％，HY241絮凝剂在pH值为4．0-7．0时，絮凝率在90％以上；絮凝剂的最佳投加量均为4mL／L，此时絮凝率分别达到98．2％和96．5％；HY1141和HY241絮凝剂所需CaCl2，最佳浓度分剐为0．5％和1．0％，此时絮凝率分刺为97．6％和96．8％；絮凝荆最佳静置时间分别为5min和10min。此外，两株菌所产絮凝刘对洪水和选矿废水都有一定的处理效果，且HY1141絮凝剂处理洪水效果较好，絮凝率为71．7％，COD去除率为81．8％；混合絮凝刺处理选矿废水效果较好，絮凝率为92．8％，COD去除率为96．0％。     

Phenanthrene degradation in soils co-inoculated with phenanthrene-degrading and biosurfactant-producing bacteria

Contaminant sorption within the soil matrix frequently limits biodegradation. However, contaminant bioavailability can be species-specific. This study investigated bioavailability of phenanthrene (PHE) to two PHE-degrading bacteria (Pseudomonas strain R and isolate P5-2) in the presence of rhamnolipid biosurfactant and/or a biosurfactant-producing bacterium, Pseudomonas aeruginosa ATCC 9027. Pseudomonas strain R mineralized more soil-sorbed PHE than strain P5-2, but in aqueous cultures the rate and extent of PHE mineralization by P5-2 exceeded that by P. strain R. In Fallsington sandy loam (fine-loamy, mixed, active, mesic Typic Endoaquult) (high PHE-sorption capacity) the addition of rhamnolipid increased PHE mineralization by P. strain R. Phenanthrene mineralization in soils inoculated with P5-2 was minimal and no enhancement in PHE degradation was observed when biosurfactant was added. Co-inoculation of Fallsington sandy loam with the biosurfactant producer did not affect PHE mineralization by isolate P5-2, but significantly enhanced PHE mineralization by P. strain R. The enhancement of PHE mineralization could not be explained by P. aeruginosa-mediated PHE degradation. The addition of rhamnolipid at concentrations above the critical micelle concentration (CMC) resulted in enhanced PHE release from test soils. These results suggest that the PHE-degrading strains were able to access different pools of PHE and that the biosurfactant-enhanced release of PHE from soils did not result in enhanced biodegradation. The results also demonstrated that bacteria with the catabolic potential to degrade sorbed hydrophobic contaminants could interact commensally with surfactant-producing strains by an unknown mechanism to hasten the biodegradation of aromatic hydrocarbons. Thus, understanding interactions among microbes may provide opportunities to further enhance biodegradation of soil-bound organic contaminants.     

Effects of pH and cyclodextrins on pentachlorophenol degradation (mineralization) by white-rot fungi

White-rot fungi (WRF) such as Trametes hirsuta completely degrade (mineralize) pentachlorophenol (PCP) and many other organopollutants. This has led to them being used to decontaminate various substrates (e.g. soil) through biorememediation. However, because PCP is a biocide, it can inhibit fungal growth and thereby its own degradation. It was hypothesized that substrate pH might affect PCP degradation, because when the pH is lower than 4.7 (the pKa for PCP) the phenol predominates, while at higher pH the phenate does. These two PCP species differ markedly in physical and biological properties. The effect of cyclodextrins was also investigated since it is known that the inclusion complexes these form with PCP differ in bioavailability and toxicity from non-complexed PCP. Tests were first made in liquid and agar media (where conditions are relatively easy to control), and then in a sawdust, because it is a common target matrix for WRF bioremediation. Results with the liquid and agar media showed that growth in the presence of inhibitory PCP concentrations decreased as the pH decreased, consistent with the phenol being more toxic. Growth in sawdust was less affected by PCP regardless of the pH, presumably because the PCP sorbed to the wood which decreased its bioavailability. Some cyclodextrins markedly decreased the PCP's toxicity in liquid, agar and sawdust media. Rates of PCP mineralization (measured from production of (14)CO(2) from (14)C PCP) in liquid cultures containing 0.5 mgkg(-1) PCP (a sub-inhibitory concentration) were similar from pH 2.5-7.5, indicating that the phenol and the phenate were equally degradable. Degradation of a growth inhibiting concentration on sawdust (1,000 mgkg(-1)) could be increased slightly by lowering the pH below the pKa, this increasing sorption to the wood. Degradation increased more when the pH was raised well above the pKa, presumably due to the phenate being less toxic and more soluble, making it more available to the degradative system. Although some cyclodextrins decreased growth inhibition, they also interfered with degradation. If this interference could be overcome, cyclodextrins could be used to increase the maximal PCP concentration that could be treated by WRF bioremediation.     

工业污水可生物降解性评价方法研究

针对生化系统经常遭受异常进水或毒性物质冲击的情况,提出了以耗氧速率(OUR)和相对耗氧速率(SOUR)快速评价污水可生物降解性的方法,以提高活性污泥系统的处理效率和运行管理水平。试验结果表明:OUR和SOUR对异常pH值水质条件以及苯酚、甲醛和甲醇等毒性物质的存在都非常敏感。对于大庆石化公司水气厂化工污水处理场的活性污泥来说,甲醛对微生物的毒性最强,甲醇次之,而苯酚则最弱。化工污水处理场活性污泥对三者的允许浓度分别为70、170、350 mg/L。     

微生物法处理海上钻井废钻井液

微生物法适用于海上钻井含油废弃物的处理。通过多次对菌株采集、分离、纯化和培养驯化,选育得到了3株对石油烃类有很好降解效果的石油类降解菌;确定了石油类降解菌适宜的生化处理条件:最佳生长及原油降解温度为50℃、最佳生长及原油降解酸碱性环境为pH=6.0、最佳菌株接种量2%、最佳原油初始浓度为500mg/L。处理后的含油废弃钻井液含油量基本稳定在2mg/L以下,降解率达98%以上。     

Effect of Cadmium on Microbial Activity and a Ryegrass Crop in Two Semiarid Soils

Soil pollution with Cd is an environmental problem common in the world, and it is necessary to establish what Cd concentrations in soil could be dangerous to its fertility from toxicity effects and the risk of transference of this element to plants and other organisms of the food chain. In this study, we assessed Cd toxicity on soil microorganisms and plants in two semiarid soils (uncultivated and cultivated). Soil ATP content, dehydrogenase activity, and plant growth were measured in the two soils spiked with concentrations ranging from 3 to 8000 mg Cd/kg soil and incubated for 3 h, 20 days, and 60 days. The Cd concentrations that produced 5%; 10%;, and 50%; inhibition of each of the two soil microbiological parameter studied (ecological dose, ED, values) were calculated using two different mathematical models. Also, the effect of Cd concentration on plant growth of ryegrass (Lolium perenne, L.) was studied in the two soils. The Cd ED values calculated for soil dehydrogenase activity and ATP content were higher in the agricultural soils than in the bare soil. For ATP inhibition, higher ED values were calculated than for dehydrogenase activity inhibition. The average yields of ryegrass were reduced from 5.03 to 3.56 g in abandoned soil and from 4.21 to 1.15 g in agricultural soil with increasing concentrations of Cd in the soil. Plant growth was totally inhibited in abandoned and agricultural soils at Cd concentrations above 2000 and 5000 mg/kg soil, respectively. There was a positive correlation between the concentration of Cd in the plants and the total or DTPA-extractable concentrations of Cd in the soil.     

Root penetration of sealing layers made of fly ash and sewage sludge

Fly ash and sewage sludge are suggested materials for constructing sealing layers covering mine tailings impoundments. Little is known, however, of their effect on vegetation or resistance to root penetration. We investigate: (i) the ability of different plant species to grow in sealing layers comprising fly ash and sewage sludge, (ii) the impact on plant growth of freshly hardened fly ash compared to aged and leached ash, and (iii) the plant stress response to fly ashes of different properties. A 6-mo greenhouse study using birch (Betula pendula Roth.), Scots pine (Pinus sylvestris L.), Kentucky bluegrass (Poa pratensis L.), and willow (Salix viminalis L.) demonstrated that no roots could grow into a compacted layer consisting only of ash, while a 6:4, ash-sludge mixture admitted roots into the upper part and a 1:9, ash-sludge mixture was totally penetrated (to 15 cm in depth) by roots of willow and Scots pine. Freshly hardened ash prevented root growth more effectively than aged ash did, as was observed in tests using reed canarygrass (Phalaris arundinacea L.) and pea (Pisum sativum L.). Furthermore, extracts of highly alkaline ash were more toxic to pea in a 48-h toxicity test than less alkaline ash was. However, stress responses to diluted ash extracts of lower pH, measured as enzyme capacities in dwarf bean (Phaseolus vulgaris L.), were more related to the metal and ion contents. Root penetration of sealing layers is most effectively prevented if little sewage sludge is added, and if ash of high alkalinity is chosen.     

超声-双氧水和亚铁离子体系处理含酚废水研究

在实验装置上对超声-双氧水和亚铁离子体系联合处理含酚废水进行了实验研究。主要考察了废水初始pH值、初始双氧水浓度、超声功率、反应时间等因素对酚去除率的影响。实验结果表明：超声辐射可以在双氧水和亚铁离子体系氧化过程中起加速反应的作用，而且随着超声功率的增大，加速反应的能力增强；实验条件下废水初始pH值为4～6．8，初始双氧水浓度为140mg／L时酚去除效果最佳；超声-双氧水和亚铁离子体系处理含酚废水过程中苯酚的降解规律符合表现一级反应。     

Fenton试剂与改性凹凸棒石联合处理微污染水中苯酚的实验研究

研究了Fenton试剂联合聚二甲基二烯丙基氯化铵（PDMDAAC）改性凹凸棒石对模拟微污染水中苯酚的去除效果。考察了pH值、反应时间、投加量、温度等因素对苯酚去除效果的影响。结果表明：先采用Fenton试剂氧化再用改性凹凸棒石吸附对微污染水中苯酚具有较好的去除效果，在pH=9、温度为25℃、改性凹凸棒石投加量为5g／L、吸附时间20min的条件下，苯酚去除率达98．2％。