沼气伴热研究进展

介绍了温度对厌氧发酵过程的影响,综述了解决低温发酵问题的各种措施,包括加热沼气池、优选低温菌种、添加促进剂以及改善发酵工艺,提出驯化低温发酵菌种是将来的主要研究方向。     

产表面活性剂降解石油菌株产物性质及降解性能研究

微生物是组成生态系统的重要成员,在污染物去除中发挥着重要作用,是生物修复中的主力,然而在石油污染修复过程中,石油烃的疏水性会限制微生物对石油的降解,但一些微生物的细胞代谢物即生物表面活性剂,它是微生物在一定条件下代谢分泌产生的具有一定表面活性,集亲水基和疏水基结构于一分子的两亲性化合物,可以促进油的乳化,提高油的分散程度,增大菌株和油珠的接触机会,促进对石油烃的吸收和降解。在实验室分离得到了7株产表面活性剂石油降解菌株,经分子鉴定可知菌1和菌2都为粘质沙雷氏菌Serratia marcescens,菌3为居植物柔武氏菌Raoultella planticola,菌4,菌6和菌7都为克雷伯氏菌Klebsiella variicola,菌5为蜡状芽孢杆菌Bacillus cereus。主要研究了它们的生长与表面活性剂物质分泌状况的关系,发现随着时间增加,OD值随之增大,表面张力呈现下降趋势;并对菌株产物进行提取和薄层层析,离子型分析和红外光谱分析,初步判断其产物均为阴离子糖脂类;通过pH,初始油质量浓度,接种量和盐度4个单因素的变化研究菌1粘质沙雷氏菌,菌3居植物柔武士菌,菌5蜡状芽孢杆菌和菌6克雷伯氏菌对石油类物质降解能力,发现菌3居植物柔武氏菌和菌5蜡状芽孢杆菌降解性能较好;通过响应曲面法优化蜡状芽孢杆菌的降解条件,得出其最佳降解条件为pH为5.02,油质量浓度为3 g·L-1,接种量为1199.98μL,盐度为0.5 g·L-1时,在此条件下,菌株对石油的降解率为66.94%。     

Improvement of the assimilable organic carbon (AOC) analytical method for reclaimed water

Microbial growth is an issue of concern that may cause hygienic and aesthetic problems during the transportation and usage of reclaimed water. Assimilable organic carbon (AOC) is an important parameter which determines the heterotrophic bacterial growth potential of water. Pseudomonas fluorescens P17 and Spirillum sp. NOX are widely used to measure AOC in drinking water. The AOC values of various reclaimed water samples determined by P17 and NOX were compared with those determined by the new strains isolated from reclaimed water in this study. It showed that the conventional test strains were not suitable for AOC measurement of reclaimed water in certain cases. In addition to P17 and NOX, Stenotrophomonas sp. ZJ2, Pseudomonas saponiphila G3 and Enterobacter sp. G6, were selected as test strains for AOC measurement of reclaimed water. Key aspects of the bioassay including inoculum cell density, incubation temperature, incubation time and the pH of samples were evaluated for the newly selected test strains. Higher inoculum density (10⁴ CFU·mL^-1) and higher incubation temperature (25°C) could reduce the time required for the tests. The AOC results of various collected samples showed the advantages of the method proposed based on those five strains in evaluating the biologic stability of reclaimed water.     

Strengthening effects of ammonia nitrogen on the harmless biological treatment of oily sludge

To improve the efficiency of oil degradation and strengthen the harmless treatment of oily sludge, three dominant strains identified as Chryseomicrobium sp. YL2, Gordonia sp. YL3 and Acinetobacter sp. YL5 were isolated from soil near a refinery, and the effects on the bioremediation of the oily sludge from the refinery were investigated. The results showed that the efficiency of oil degradation increased by 31.5% compared with the control when the dominant strains were added to the treatment of oily sludge. Furthermore, the dominant strains could use oil as a carbon source for heterotrophic nitrification–aerobic denitrification. The addition of ammonia nitrogen resulted in a large number of remaining microbes and heightened dehydrogenase activity in the oily sludge, further accelerating oil degradation, mainly for C₁₁ to C₂₅ saturated hydrocarbons, and the oil degradation efficiency increased by 40.8%. After 120 days of bioremediation, the biotoxicity of oily sludge, which was expressed by the equivalent phenol concentration, decreased by 40.0% compared with that of the control, indicating that the addition of ammonia nitrogen enhanced the biodegradation of oil. This method can be used to strengthen the harmless treatment of oily sludge in practical engineering applications.     

与黄孢原毛平革菌协同降解稻草的混合菌筛选

在纤维素筛选培养基中加入黄孢原毛平革菌稻草固态发酵的浸提液,用这种培养基从自然环境中筛选出与黄孢原毛平革菌相容的菌株,在PDA和MEA平板上进行相容性测试,选择出生长稳定,可以与黄孢原毛平革菌较好共存的6株真菌.考察了6株真菌分别与黄孢原毛平革菌混合培养降解稻草时的酶活和对木质纤维素类组分的降解,筛选出3组更优的组合,其混合培养时,对于纤维素酶能产生较好的协同效果,纤维素降解效果较好.对于木质素降解效率的显著提高,可能是由于发酵体系内的胞外酶和一些活性因子的作用.     

含氟有机化合物优势降解菌的筛选

从受含氟有机物长期污染的污泥中驯化筛选得到7株优势降解菌,可利用氟代有机化合物为唯一碳源生长。取其中2株菌进行生物忍耐力及生物降解实验,结果表明:菌株对含氟有机物有较强的忍受能力,在浓度高达1000mg/L的条件下仍能生长;生物降解实验中全氟辛酸可被筛选菌脱氟降解。     

耐盐性毒死蜱降解混合菌的构建及其降解特性

为明确蜡状芽孢杆菌(Bacillus cereus)混合菌株对毒死蜱的降解效果,采用正交实验的方法构建混合菌。以混合菌对毒死蜱的降解率和菌株的生长量为依据,利用单一因素实验考察了不同因素对混合菌降解毒死蜱的影响。结果表明:构建的混合菌中三菌株的体积比为1∶1∶3。在含80 mg/L毒死蜱的反应体系中,最适接菌量为8%(V/V),最适pH为7。在实验浓度下,混合菌对毒死蜱的降解符合一级动力学方程。混合菌对盐分有较高的耐受度,当反应液中氯化钠浓度在20～100 g/L之间时,混合菌对80 mg/L毒死蜱的降解率最高达61%。     

环境因素对聚乙烯醇降解菌系降解效果的影响研究

针对在前期研究中已筛选到的一种聚乙烯醇(PVA)降解混合菌系,考察了种龄、菌悬液接种量、培养基装液量、培养温度、初始pH、渗透压及光照等外部环境因素对其PVA降解能力的影响.结果表明,种龄对混合菌系降解PVA的能力影响较小,实际运用中保持种龄为24～48 h较佳;菌悬液接种量过多时,会影响其正常生长,最佳的接种量为4～...     

微生物制剂与玄武岩纤维联斥处理城市废水

为了探索一种新型的去除水体中有机物的工艺,以模拟城市废水为研究对象,研究不同工况条件下,复合微生物制剂、组合双环玄武岩纤维填料以及复合微生物制剂与组合双环玄武岩纤维填料结合对模拟城市废水中COD的去除情况。实验结果表明,复合微生物制剂与组合双环玄武岩纤维填料结合在曝气的情况下对COD的去除能力较高。在复合微生物制剂与组合双环玄武岩纤维填料结合的条件下,对COD浓度为500mg／L左右的模拟城市废水的去除效率可达97．22％;影响模拟城市废水中COD去除效果的各因素的主次顺序依次为反应时间〉曝气时间〉投加量=pH;得出最佳工况参数是：复合微生物制剂的投加量为0．05g／L,曝气时间为72h,反应时间为96h,pH为7。     

钻井废水的生物强化处理简

从受钻井废水污染的土壤样品中筛选菌株进行生物处理实验,确定7株菌进行菌剂配伍。通过正交实验剔除可能有抑制作用的菌株,并确定菌剂各组成菌株的最佳配比,制成复合微生物菌剂。考察5种添加物对菌剂的影响,结果显示,当硫酸铵的添加量为20 mg/L时降解率为60%,高于其他添加物。生物强化实验结果显示,投加菌剂的反应器对钻井废水的平均降解率为42%,比未投加菌剂的对照实验的平均降解率（16%）高,而且耐冲击负荷性和降解性能稳定性优于对照实验。