碳素纤维生态基技术对城市黑臭水体的修复效果

以碳素纤维(carbon fiber,CF)生态基为载体,处理南宁市朝阳溪黑臭河水,考察CF生态基在黑臭水体中的挂膜情况及其对污染物的去除效果。结果表明,CF生态基对污水中悬浮物有较强的吸附能力,在24 h内,CF实验组的浊度由原来的47.32 NTU降低为13.78 NTU;CF生态基生物亲和力强,易于挂膜,在黑臭水体中10 d内能形成较成熟的生物膜;在没有曝气情况下,CF生态基挂膜后对COD、TP、NH3-N和TN去除率分别达到76.00%、54.34%、90.73%和55.13%,是一种较有效的改善城市黑臭水体生态材料。     

用于处理冲厕海水的固定化生物硅藻土小球的制备

选用聚乙烯醇（PVA）和海藻酸钠（SA）混合物作为包埋载体,对筛选出的耐盐复合菌群固定化制备方法进行了研究。通过正交实验分别研究了包埋载体不同配比、包菌量、硅藻土投加量和交联时间对固定化生物硅藻土小球的性能及其对冲厕污水中COD去除效果的影响。研究结果表明,固定化生物硅藻土小球最佳包埋条件是：聚乙烯醇9％,海藻酸钠0．5％,包菌量l：1,硅藻土20g／L,交联时间为24h。在该条件下,小球成球效果较好,机械强度高,对海水冲厕污水中COD的去除率达86．95％。     

固定化啤酒酵母菌对锶的吸附机制及热力学研究

以聚乙烯醇和海藻酸钠作为载体,制备了固定化啤酒酵母菌颗粒。研究了固定化啤酒酵母菌对锶的吸附机制和吸附热力学。结果表明:(1)吸附Sr2+后的固定化啤酒酵母菌的内部结构更松散,更有利于固定化啤酒酵母菌对Sr2+的吸附。(2)固定化啤酒酵母菌吸附Sr2+后,部分-OH参与了吸附,使形成的氢键部分断开,振动峰发生蓝移。另外,由于-NH2和-CO-NH-中的N原子可提供孤对电子与有空轨道的Sr2+配位,从而改变了基团的极性。(3)当Sr2+初始质量浓度为10～200mg/L时,固定化啤酒酵母菌对Sr2+的吸附同时符合Freundlich和Langmuir吸附模型,但符合Langmuir吸附模型的程度更优,这说明固定化啤酒酵母菌与Sr2+之间主要通过分子间引力产生吸附,是以单分子层吸附为主的物理吸附。     

Fe-Al改性硅藻土与CaO配施改良Cd污染土壤

以人工模拟Cd污染土壤为研究对象,以Fe-Al改性硅藻土和CaO为原料制备组配改良剂,通过土壤培养试验研究了Fe-Al改性硅藻土与CaO不同配比对组配改良剂改良Cd污染土壤效果的影响.结果表明,向Cd污染土壤施加Fe-Al改性硅藻土与CaO以不同配比所制得组配改良剂对土壤Cd形态、pH值、CEC值、OM值、含水率、有效氮、速效磷、有效钾均产生了积极的影响.当Fe-Al改性硅藻土与CaO的配比为1：6时,土壤可交换态Cd含量较空白对照降低了74.67%,较单一施加Fe-Al改性硅藻土和CaO分别降低了64.63%和7.87%,与对照相比,土壤pH值提升了0.45,土壤CEC提升了69.78%,土壤有效氮、速效磷分别提升了28.57%、70.85%.Fe-Al改性硅藻土与CaO配施能有效控制土壤Cd污染,同时还可有效改善土壤耕作性能.     

Electrokinetic movement of multiple chlorobenzenes in contaminated soils in the presence of β-cyclodextrin

This study investigated the electrokinetic (EK) behavior of multiple chlorobenzenes, including 1,2,3,4-tetrachlorobenzene (TeCB), 1,2,4,5-tetrachlorobenzene (i-TeCB), and 1,2,3-trichlorobenzene (TCB) in contaminated clayed soils. The effect of β-cyclodextrin (β-CD) on the EK removal of the chlorobenzenes was studied. The largest removal was obtained when Na2CO3/NaHCO3 buffer was used as anodic purging solution without β-CD. The removal efficiencies were related to the aqueous solubilities of chlorobenzenes. With the same cumulative electroosmotic flow, greater solubility led to higher removal efficiency. The addition of β-CD inhibited the EK removal efficiency of all chlorobenzenes. The inhibition increased with the increase of β-CD concentration. With the same β-CD concentration, the inhibition increased with the rise of electric potential. It was found that the inclusion compounds between β-CD and chlorobenzenzes were less soluble than chlorobenzenes. The formation of the less soluble inclusion compounds reduced the aqueous solubility of chlorobenzenes and led to the partial immobilization of the chlorobenzenes that desorbed from soil. It was feasible to use the EK technology to remove chlorobenzenes in contaminated soils using water as the anodic flushing solution. The addition of β-CD was not recommended for the EK removal of chlorobenzenes.     

Immobilization of activated sludge using improved polyvinyl alcohol （PVA） gel

The microbial immobilization method using polyvinyl alcohol(PVA)gel as an immobilizing material was improved and used for entrapment of activated sludge.The oxygen uptake rate(OUR)was used to characterize the biological activity of immobilized activated sludge.Three kinds of PVA-immobilized particles of activated sludge,that is,PVA-boric acid beads,PVA-sodium nitrate beads and PVA-orthophosphate beads were prepared,and their biological activity was compared by measuring the OUR value.The bioactivity of both autotrophic and heterotrophic microorganisms of activated sludge was determined using different synthetic wastewater media (containing 250 mg/L COD and 25 mg/L NH_4~ -N).The experimental results showed that the bioactivity and stability of the three kinds of immobilized activated sludge was greatly improved after activation.With respect of the bioactivity and the mechanical stability,the PVA-orthophosphate method may be a promising and economical technique for microbial immobilization.     

Biosorption characteristics of unicellular green alga Chlorella sorokiniana immobilized in loofa sponge for removal of Cr（Ⅲ）

Loofa sponge （LS） immobilized biomass of Chlorella sorokiniana （LSIBCS）, isolated from industrial wastewater, was investigated as a new biosorbent for the removal of Cr（Ⅲ） from aqueous solution. A comparison of the biosorption of Cr（Ⅲ） by LSIBCS and free biomass of C. sorokiniana （FBCS） from 10-300 mg Cr（Ⅲ）/L aqueous solutions showed an increase in uptake of 17.79% when the microalgal biomass was immobilized onto loofa sponge. Maximum biosorption capacity for LSIBCS and FBCS was found to be 69.26 and 58.80 mg Cr（Ⅲ）/g biosorbent, respectively, whereas the amount of Cr（Ⅲ） ions adsorbed onto naked LS was 4.97 mg/g. The kinetics of Cr（Ⅲ） biosorption was extremely rapid and equilibrium was established in about 15 and 20 min by LSIBCS and FBCS, respectively. The biosorption equilibrium was well defined by Langmuir adsorption isotherm model. The biosorption kinetics followed the pseudo-second order kinetic model. The biosorption was found to be pH dependent and the maximum sorption occurred at the solution pH 4.0. Desorption studies showed that 98% of the adsorbed Cr（Ⅲ） could be desorbed with 0.1 mol/L HNO3, while other desorbing agents were less effective in the order： EDTA 〉 H2SO4 〉 CH3COOH 〉 HCl. The regenerated LSIBCS retained 92.68% of the initial Cr（Ⅲ） binding capacity up to five cycles of reuse in continuous flow-fixed bed columns. The study revealed that LSIBCS could be used as an effective biosorbent for the removal of Cr（Ⅲ） from wastewater.     

Cadmium removal mechanistic comparison of three Fe-based nanomaterials: Water-chemistry and roles of Fe dissolution

● nZVI, S-nZVI, and nFeS were systematically compared for Cd(II) removal. ● Cd(II) removal by nZVI involved coprecipitation, complexation, and reduction. ● The predominant reaction for Cd(II) removal by S-nZVI and nFeS was replacement. ● A simple pseudo-second-order kinetic can adequately fit Fe(II) dissolution. Cadmium (Cd) is a common toxic heavy metal in the environment. Taking Cd(II) as a target contaminant, we systematically compared the performances of three Fe-based nanomaterials (nano zero valent iron, nZVI; sulfidated nZVI, S-nZVI; and nano FeS, nFeS) for Cd immobilization under anaerobic conditions. Effects of nanomaterials doses, initial pH, co-existing ions, and humic acid (HA) were examined. Under identical conditions, at varied doses or initial pH, Cd(II) removal by three materials followed the order of S-nZVI > nFeS > nZVI. At pH 6, the Cd(II) removal within 24 hours for S-nZVI, nFeS, and nZVI (dose of 20 mg/L) were 93.50%, 89.12% and 4.10%, respectively. The fast initial reaction rate of nZVI did not lead to a high removal capacity. The Cd removal was slightly impacted or even improved with co-existing ions (at 50 mg/L or 200 mg/L) or HA (at 2 mg/L or 20 mg/L). Characterization results revealed that nZVI immobilized Cd through coprecipitation, surface complexation, and reduction, whereas the mechanisms for sulfidated materials involved replacement, coprecipitation, and surface complexation, with replacement as the predominant reaction. A strong linear correlation between Cd(II) removal and Fe(II) dissolution was observed, and we proposed a novel pseudo-second-order kinetic model to simulate Fe(II) dissolution.     

氧化强化对氢氧化钙原位固磷效果的影响

将氢氧化钙[Ca(OH)2]和过氧化氢(H2O2)以梅花散点的方式注射到底泥中,考察两者联用对内源磷的控制效果.结果表明,单独投加Ca(OH)2 可以有效固定沉积物-水界面(SWI)以下约20 mm沉积物中约90％的内源磷,但同时会加剧20 mm 以下沉积物的厌氧环境,导致沉积物中稳定态磷向易释放态磷转化,造成潜在活性...     

基于颗粒污泥的短程反硝化USB反应器启动和运行研究

在2个相同的USB反应器(R1无载体,R2采用多孔生物填料为载体)中构建了短程反硝化工艺,对R1和R2NO₃^--N→NO₂^--N转化性能、短程反硝化颗粒污泥物化特性、胞外聚合物(EPS)产生特性以及微生物功能菌群主要特征进行差异分析.结果表明,反应器运行81d,氮负荷(NLR)为1.2kg/(m³·d)时,NO₃^--N→NO₂^--N转化率(NTR) R2(85%)高于R1(80%);载体颗粒污泥(R2)沉降性能优于自固定化颗粒污泥(R1)且载体颗粒污泥(R2)更容易截留EPS,PN/PS值R1(1.29)>R2(1.15),污泥体积指数(SVI) R1(27.07mL/g MLSS)>R2(19.36mL/g MLSS);扫描电镜发现R1污泥表面聚集长杆菌,R2污泥表面聚集短杆菌和球菌,与R1相比R2颗粒污泥结构更加规则密实.微生物高通量测序结果表明,R2物种丰富度和多样性高于R1,变形菌门、拟杆菌门和绿弯菌门在短程反硝化系统中占主导地位,R1和R2主要NO₂^--N积累功能菌属均为Acinetobacter属(R1-59.18%、R2-46.04%)和Thauera属(R1-6.81%、R2-5.99%).