超高盐高磷废水磷酸盐还原系统构建过程中磷系统转化分析研究

针对现有除磷技术存在的问题,以高盐高磷榨菜腌制废水为研究对象,探讨了磷酸盐生物还原系统构建过程中磷形态的转化.结果表明,以3%的盐度(以NaCl计,下同)废水启动反应器,通过两阶段盐度逐步提升法,在进水有机负荷(COD)0.45kg.(m3.d)-1,磷负荷(PO43--P)5.0 g.(m3.d)-1,DO 6 mg.L-1,水温30℃,且未排泥的条件下,成功构建了超高盐(7%盐度)条件下的磷酸盐还原系统.通过该磷酸盐还原系统运行26个周期中,对磷平衡及污泥中磷形态转化进行研究.结果表明,系统中平均每日有41.8 mg.L-1的外源磷损失,而污泥中共有155 mg的内源磷通过磷形态转化以及磷酸盐还原途径损失,占外源磷损失量的14.2%,占系统磷损失总量的12.5%.系统构建过程中污泥的磷形态主要以Org-P→NaOH85-P→HCl-P→NaOH-P→BD-P→H2O-P途径进行转化.     

细菌共培养体系合成纳米硒特性

生物合成纳米硒(SeNPs)具有环境友好、安全低毒等特点,备受关注. 目前研究主要集中在纯菌体系,但其存在亚硒酸盐转化率低、耐受性差等问题,因此研究新的纳米硒高效合成体系非常必要. 选取实验室前期筛选得到的两株纳米硒合成细菌Alcaligenes sp. YBY和Providencia sp. DCX,分别考察了单菌株及共培养体系(双菌株)对SeO₃^2-的还原能力及其高浓度耐受性. 结果表明,共培养体系还原SeO₃^2-的能力强于单菌株培养且耐受性明显更好,能够在20mmol/L SeO₃^2-浓度下仍然保持33.01%的还原率. 利用表面响应法对共培养体系还原SeO₃^2-合成SeNPs的条件进行了优化,结果表明在2.18 mmol/L SeO₃^2-以及pH 6.83还原条件下还原率最高,达到了97.09%. X射线衍射(XRD)分析发现共培养体系合成的SeNPs为六方晶...     

热水洗辅助微生物修复高含油落地油泥

为解决油田落地油泥含油率高但不能直接进行生物无害化处置的问题,探索一种热水洗辅助微生物修复工艺。利用热水洗实验考察了清洗配方和水温对降低含油率的影响;从落地油泥中分离出石油烃降解菌,以用于含油残砂的微生物降解过程,同时探究填料和烃降解微生物对残砂中石油烃降解效果的影响。结果表明,鼠李糖脂清洗剂在总用量为0.5%、水洗时间30 min和50 ℃条件下,可将油泥含油率由107.1 mg·g⁻¹降至为39.3 mg·g⁻¹;水洗后残砂中的土著菌群数量出现了明显下降。分离获得了2株烃降解菌,并优选出具有增加油泥溶氧和保水的沼渣。将烃降解微生物和优选沼渣加入残砂后,石油烃生物降解效率得到显著提升,200 d后含油率降为4.62 mg·g⁻¹。在此过程中,微生物优先降解分子量小的饱和烃和芳香烃组分,对胶质和沥青质等组分降解程度偏低。该研究结果可为油田高含油落地油泥的环保处置提供参考。     

"绿色塑料"聚羟基脂肪酸酯生物合成研究进展

由于化石资源日益枯竭和塑料污染加剧,迫切需求环境友好可降解的"绿色塑料".由细菌合成的具有良好生物降解性和生物相容性的聚羟基脂肪酸酯(polyhydroxyalkanoates,PHAs)被认为是最有前景的"绿色塑料"之一.概述PHAs的结构、材料特性和应用、生物合成代谢路径以及发酵方式,指出高昂的生产成本是限制PHA...     

焙烧温度对CeO_2(ZrO_2)/TiO_2选择性催化脱硝性能的影响

采用溶胶-凝胶法并以不同温度焙烧制备一系列CeO_2(ZrO_2)/TiO_2(CZT)催化剂,考察了CZT催化剂固相结构、酸量、比表面积等性能与催化活性的关系。采用XRD、BET、NH3-TPD、H2-TPR以及XPS等表征技术对催化剂进行表征。结果表明:焙烧温度为450℃时CZT催化剂具有最高的催化活性,其在240~400℃的温度窗口内活性均高于90%,且具有较好的抗水和抗硫中毒能力。随着焙烧温度的提高,催化剂表面的Ce和Zr原子进入体相晶格且Ce0.5Zr0.5O2向Ce0.75Zr0.25O2转变,导致催化剂的储释氧能力和氧化还原性能降低。另外,锐钛矿和金红石型TiO_2晶粒尺寸的增加,催化剂的有效比表面积和总酸量降低,因此CZT催化活性随着焙烧温度的提高而有所降低。换言之,大的比表面积、良好的氧化还原性能、表面Ce4+的富集以及酸性位的增多均有利于NH3-SCR活性的提高。     

基于实时控制技术的CANON工艺稳定性运行

为保证出水水质稳定并提高氨氮去除率,实现CANON工艺的优化,利用SBR反应器进行了基于实时控制技术的CANON工艺稳定性研究.试验过程中,温度控制在30℃±1℃,pH 7~8,通过反应过程中氨氮、硝态氮、亚硝态氮和pH、DO、ORP的变化规律,制定了可行的实时控制策略.结果表明,进水氨氮浓度为917~1 540 mg·L~(-1)时,以6 mg·L~(-1)的剩余氨氮浓度作为控制参数可以满足工艺稳定性的要求,但氨氮传感器存在费用昂贵和误差较大等问题.采用pH、DO和ORP曲线的平台和特征点作为自控参数,可以维持CANON工艺的长期稳定运行,保证氨氮去除率平均维持在99%以上且出水水质稳定.     

Effect of transition metal doping under reducing calcination atmosphere on photocatalytic property of TiO2 immobilized on SiO2 beads

TiO₂ immobilized on SiO₂ (TiO₂/SiO₂) have been prepared by sol-gel method and various ions of transition metals (Cr³⁺, Co²⁺, Ni²⁺, Cu²⁺, and Zn²⁺) were doped on the photocatalyst using wet impregnation method under reducing calcination atmosphere. The photocatalytic activity of metal doped TiO₂/SiO₂ towards phenol degradation under black light irradiation were investigated and compared with undoped TiO₂/SiO₂. The results showed that the photoresponse of Cu²⁺ and Zn²⁺ doped TiO₂/SiO₂ were larger than undoped TiO₂/SiO₂, indicating that the photogenerated carriers were separated more efficiently in Cu²⁺ and Zn²⁺ doped TiO₂/SiO₂. The reactivity was in the order of Cu²⁺ > Zn²⁺ > Ni²⁺ > Cr³⁺ > Co²⁺. The different photoreactivity was ascribed to combine effect of the different ionic radii and photocorrison tendency of the dopants. The sample was also characterized by surface analytical methods such as X-ray diffraction, scanning electron micrograph/electron dispersive X-ray analyzer and UV-Vis absorption spectrum.     

Reversibly enhanced aqueous solubilization of volatile organic compounds using a redox-reversible surfactant

Surfactant-enhanced remediation (SER) is an effective method for the removal of volatile organic compounds (VOCs) from contaminated soils and groundwater. To reuse the surfactant the VOCs must be separated from the surfactant solutions. The water solubility of VOCs can be enhanced using reversible surfactants with a redox-acive group, (ferrocenylmethyl)dodecyldimethylammonium bromide (Fcl2) and (ferrocenylmethyl)tetradecanedimethylammonium bromide (Fcl4), above and below their critical micelle concentrations (CMC) under reducing (I⁺) and oxidative (I²⁺) conditions. The CMC values of Fcl2 and Fcl4 in I⁺ are 0.94 and 0.56 mmol/L and the solubilization of toluene by Fcl2 and Fcl4 in I⁺ for toluene is higher than the solubilization achieved with sodium dodecyl sulfate, cetyltrimethylammonium bromide and Trition X-114. The solubilization capacity of the ferrocenyl surfactants for each tested VOCs ranked as follows: ethylbenzene > toluene > benzene. The solubilities of VOCs by reversible surfactant in I⁺ were 30% higher than those in I²⁺ at comparable surfactant concentrations. The effects of Fcl4 concentrations on VOCs removal efficiency were as follows: benzene > toluene > ethylbenzene. However, an improved removal efficiency was achieved at low ferrocenyl surfactant concentrations. Furthermore, the reversible surfactant could be recycled through chemical approaches to remove organic pollutants, which could significantly reduce the operating costs of SER technology.     

氧化沟工艺污水处理厂的调试运行

以安徽某县污水处理厂的改良氧化沟工艺调试为例,采用自然培菌和间歇培养相接合的方式进行调试,结果表明方法可行。在进水COD100mg/L时,MLSS在1500mg/L时,出水COD、NH4-N均可取得较好的处理效果。同时对调试过程中的各环节如人员培训、带负荷试车、污泥培养等进行了详细阐述,并确定了各工艺段的控制参数。     

Arsenic removal from groundwater by acclimated sludge under autohydrogenotrophic conditions

Arsenic in the environment is attracting increasing attention due to its chronic health effects. Although arsenite(As(III)) is generally more mobile and more toxic than arsenate(As(V)), reducing As(V) to As(III) may still be a means for decontamination, because As(III) can be removed from solution by precipitation with sulfide or by adsorption or complexation with other metal sulfides. The performance of As(V) bio-reduction under autohydrogenotrophic conditions was investigated with batch experiments. The results showed that As(V) reduction was a biochemical process while both acclimated sludge and hydrogen were essential. Most of the reduced arsenic remained in a soluble form, although 20% was removed with no addition of sulfate, while 82% was removed when sulfate was reduced to sulfide. The results demonstrated that the reduced arsenic was re-sequestered in the precipitates, probably as arsenic sulfides. Kinetic analysis showed that pseudo first-order kinetics described the bio-reduction process better than pseudo second-order. In particular, the influences of pH and temperature on As(V) reduction by acclimated sludge under autohydrogenotrophic conditions and total soluble As removal were examined. The reduction process was highly sensitive to both pH and temperature, with the optimum ranges of pH 6.5–7.0 and 30–40°C respectively. Furthermore, Arrhenius modeling results for the temperature effect indicated that the As(V) reduction trend was systematic. Total soluble As removal was consistent with the trend of As(V) reduction.