以养殖废水为底料的微生物燃料电池产电性能与水质净化效果

以养殖场沼泥为接种物,构建了乙二胺、三氯化铁改性碳毡阳极的单室无膜微生物燃料电池,探讨了2种阳极改性电池的产电规律,考察了其去除养殖废水中COD、氨氮的效果以及臭味的表观性状变化。结果表明,以葡萄糖为底物时,乙二胺、三氯化铁改性阳极微生物燃料电池在启动20 d和22 d后分别达到稳定,输出电压分别为0.514 V和0.527V(外阻为500Ω),对应输出功率密度分别为332 mW/m2和349 mW/m2。逐渐增大废水投加比例至原水时,2个电池的最大功率密度分别为208 mW/m2和158 mW/m2,COD去除率分别为85%和78%,氨氮去除率分别为52%和45%。此外,养殖废水的臭味去除效果明显。因此,构建的2种改性阳极微生物燃料电池可以利用养殖废水产电,同时使水质得到一定程度的净化。     

Production of electricity from proteins using a microbial fuel cell.

Electricity generation was examined from proteins and a protein-rich wastewater using a single chamber microbial fuel cell (MFC). The maximum power densities achieved were 354 +/- 10 mW/m2 using bovine serum albumin (BSA) and 269 +/- 14 mW/m2 using peptone (1100 mg/L BSA and 300 mg/L peptone). The recovery of organic matter as electricity, defined as the Coulombic efficiency (CE), was comparable to that obtained with other substrates with CE = 20.6% for BSA and CE = 6.0% for peptone. A meat packing wastewater (MPW), diluted to 1420 mg/L chemical oxygen demand, produced 80 +/- 1 mW/m2, and power was increased by 33% by adding salt (300 mg/L sodium chloride) to increase solution conductivity. A wastewater inoculum generated 33% less power than the MPW inoculum. The MFC was an effective method of wastewater treatment, demonstrated by >86% of biochemical oxygen demand and total organic carbon removal from wastewater.     

以羟胺为底物的自养脱氮微量热研究

羟胺（NH₂OH）是单级自养脱氮系统物质转化的重要中间产物。从稳定运行（氨氮去除率维持90%以上,总氮去除率维持在80%以上）的单级自养脱氮工艺（SBBR）取活性污泥放入量热池,加入不同浓度N-NH₂OH（40～200 mg/L）进行量热实验研究。结果表明,用Boltzmann模型可以很好地表达量热值与NH₂OH浓度的关系,超过一定浓度的羟胺会抑制微生物活性,自营养脱氮过程的产热增量降低。     

废水中KMnO4对生物处理效果的影响

为减轻和消除含高浓度KMnO4的牛仔服加工废水对生物处理系统的毒害作用,采用模拟序批式活性污泥法,研究KMnO4对活性污泥微生物生长的影响及COD和NH4+-N的降解规律。结果表明,当处理进水COD浓度500 mg/L,NH4+-N浓度23.5 mg/L,污泥浓度为2 000 mg/L时,曝气时间为4 h,KMnO4质量浓度增加对COD和NH4+-N的降解影响很大;同样条件下曝气时间改为8 h,对NH4+-N的降解影响显著减小,但对COD的降解影响减少不多;并且,高浓度KMnO4对NH4+-N去除效果的抑制作用比对COD的大。因此,处理含高浓度KMnO4的废水需要延长一倍曝气时间,可以获得良好的COD和NH4+-N的降解效果。同时,KMnO4对活性污泥的抑制影响较好地吻合非竞争性抑制机理修正莫若特方程的规律。     

异养硝化细菌Alcaligenes sp.S3除氮特性及动力学

从湘江生活污水排污口分离纯化的一株菌Alcaligenes sp.S3,在氨氮浓度为400 mg/L时,经过192 h的降解,氨氮的去除率达到88%,并且NH2OH和NO2--N并没出现积累。在对不同浓度的氨氮进行一级动力学拟合时发现,只有氨氮浓度较高时才很好地符合,浓度为500 mg/L时R2达到0.9923。酸性环境对Alcaligenes sp.S3生长有抑制作用,在pH7.5～10生长较好。摇床转速对Alcaligenes sp.S3除氮影响不大,C/N过低或过高对Alcaligenes sp.S3除氮都有影响。     

吹脱法预处理皮革废水的实验研究

对某皮革厂综合废水进行吹脱预处理实验,综合考察了影响氨氮去除的各个因素(pH值、汽液比、吹脱温度、氨氮初始浓度),同时对该预处理工艺去除铬、SS(悬浮固体浓度)、COD和硫化物的条件进行了优化,并进行了能耗及运行成本估算。结果表明:该厂皮革废水的最佳吹脱工况为pH=11,气液比=1 800,温度25~35℃,在此条件下,当进水ρ(NH3-N)=304.7 mg/L、ρ(Cr)=65.0 mg/L、ρ(SS)=1 700 mg/L、ρ(COD)=2 700 mg/L、ρ(S2-)=112.3 mg/L时,相应的去除率可达78.1%~83.5%、96.4%、88.2%、45.6%和85.0%,且吹脱法对氨氮具有较高的抗冲击负荷能力,吨水处理成本约为3.61元,可作为皮革废水的预处理工艺。     

气升回流一体化工艺处理生活污水简

针对分散型生活污水处理开发了气升回流一体化工艺,以校园生活污水为对象,研究其对生活污水中污染物的去除效果。该系统由好氧区、厌氧区、沉淀区和气升室组成,以曝气的剩余气体的气升作用实现混合液的回流,节省动力消耗。结果表明,本工艺对COD、氨氮及悬浮物（SS）有较好的去除效果,去除率分别达到80%、90%和75%左右,出水COD、NH₄⁺-N及SS平均浓度在40 mg/L、6.5 mg/L和10 mg/L左右。当进水COD在100~1 000 mg/L之间波动时,出水水质稳定。该工艺有较强的抗冲击负荷能力,且可实现剩余污泥的自消解。本工艺具有结构紧凑、占地少,运行费用低,维护简单的特点。     

湿地植物齿果酸模对猪场废水净化作用研究

为了选择对养殖业废水有较强耐污及净化能力的湿地植物,提高人工湿地对养殖业废水处理效果,采用基质栽培法对耐寒植物齿果酸模在猪场废水中的生长特性及其对氮、磷的去除效果进行了研究。结果表明,该植物在氨氮浓度150mg／L左右的废水中长势良好,单株植物的生物量干重达到148．7g,其氮、磷积累量分别为4．55g和0．50g,在单株处理水量为9L,水力停留时间7d时,齿果酸模对废水中氨氮、总氮、总磷及化学需氧量的平均去除率都在70％以上。可见,齿果酸模对猪场废水有较强的耐污能力和较好的净化效果,可用于人工湿地处理养殖业废水。     

低温条件下硝化污泥的驯化

为了在低温13～14％下取得较好的硝化效果,分3个温度阶段25℃,16～17℃,13—14℃对活性污泥进行了驯化培养,研究了进水氨氮浓度和混合液COD对硝化污泥的影响。实验结果表明,硝化污泥经过驯化培养后,氨氮去除率可达80％以上,且在DO浓度为2ing／L,pH为6．7～7．5,进水氨氮为300mg／L,混合液COD为80mg／L条件下,硝化污泥能取得较快的增长,氨氮平均去除率可达89％。     

Increasing the recovery of heavy metal ions using two microbial fuel cells operating in parallel with no power output

The present study aimed to improve the performance of microbial fuel cells (MFCs) by using an intermittent connection period without power output. Connecting two MFCs in parallel improved the voltage output of both MFCs until the voltage stabilized. Electric energy was accumulated in two MFCs containing heavy metal ions copper, zinc, and cadmium as electron acceptors by connection in parallel for several hours. The system was then switched to discharge mode with single MFCs with a 1000-Ω resistor connected between anode and cathode. This method successfully achieved highly efficient removal of heavy metal ions. Even when the anolyte was run in sequencing batch mode, the insufficient voltage and power needed to recover heavy metals from the cathode of MFCs can be complemented by the developed method. The average removal ratio of heavy metal ions in sequencing batch mode was 67 % after 10 h. When the discharge time was 20 h, the removal ratios of zinc, copper, and cadmium were 91.5, 86.7, and 83.57 %, respectively; the average removal ratio of these ions after 20 h was only 52.1 % for the control group. Therefore, the average removal efficiency of heavy metal ions increased by 1.75 times using the electrons stored from the bacteria under the open-circuit conditions in parallel mode. Electrochemical impedance data showed that the anode had lower solution resistance and polarization resistance in the parallel stage than as a single MFC, and capacitance increased with the length of time in parallel.

     

水蚯蚓微生物共生系统的脱氮特性

采用泥水同步降解的"水蚯蚓-微生物共生系统",考察了该系统污泥减量能力以及污染物去除性能,研究了水蚯蚓对共生系统脱氮特性的影响。结果表明,与对照组相比,实验组污泥减量率为25.0%,污泥性状无明显差异。实验组氨氮与总氮去除率明显低于对照组,实验组每周期单位质量活性污泥氨氮与总氮去除质量分别为6.63 mg/g与5.81mg/g,均低于对照组。共生系统脱氮性能下降主要由水蚯蚓含氮物质释放引起,活性污泥本身硝化能力没有降低,反而略有提高,反硝化能力没有明显改变。"水蚯蚓-微生物共生系统"对中低氨氮浓度的废水处理具有较大的潜力。     

Occurrence and removal of polycyclic aromatic hydrocarbons and their derivatives in an ecological wastewater treatment plant in South China and effluent impact to the receiving river

Ecological wastewater treatment plant (EWWTP), a kind of emerging wastewater treatment plant (WWTP) in recent years, combined microbiology with botany which is efficient for the removal of nitrogen and organic matter, as well as deodorization. The occurrence and removal of micro-organic pollutants in EWWTPs were still not well known. Polycyclic aromatic hydrocarbons (PAHs) and their typical derivatives (SPAHs) including the oxygenated PAHs (OPAHs), chlorinated PAHs (ClPAHs), and methyl PAHs (MPAHs) were investigated in an EWWTP in Guangdong Province, China. The concentrations of the Σ6 OPAHs (114–384 ng/L) were higher than the Σ16 PAHs (92–250 ng/L), and much higher than the Σ4 MPAHs (13–64 ng/L) and Σ9 ClPAHs (2–3 ng/L) in the EWWTP and the effluent receiving river. The total removal efficiencies of the PAHs, OPAHs, MPAHs, and ClPAHs in the EWWTP (43?±?14%, 41?±?7%, 55?±?16%, and 18?±?4%) were lower than the traditional WWTPs, probably due to the lower concentration of the sludge in the ecological treatment. The advanced treatment process (microfiltration and UV disinfection treatment) contributed much less (0–20%) to the whole removal efficiency than the ecological treatment (80–100%). The effluent from the EWWTP slightly reduced the PAHs and SPAHs concentrations in the receiving river. The high concentrations of the PAHs and SPAHs in the receiving river were similar to the influent of the EWWTP, indicating that some untreated wastewater was directly discharged to the river, especially in the upstream.

     

强化EGSB-好氧组合工艺处理马铃薯淀粉废水研究

马铃薯淀粉废水具有处理难度大、有机污染物浓度高等特点,属于高难度有机废水。为了有效的解决马铃薯淀粉废水造成的环境污染问题,采用强化厌氧膨胀颗粒污泥床组合好氧工艺对有机污染物质和氨氮的去除效能进行研究。研究结果表明-强化厌氧膨胀颗粒污泥床在最佳运行工况条件下(进水温度为30℃、外回流比为2和水力停留时间24 h),组合工艺出水COD质量浓度和氨氮浓度分别在92.35 mg/L和10.28 mg/L左右,去除率分别在98.85%和86.29%左右,出水水质能够满足《污水综合排放标准》(GB8978—1996)二级标准,说明该工艺是一种适用于马铃薯淀粉废水的处理技术。     

阴极液及底物浓度对AFB-MFC同步废水处理及产电性能影响

为了提高厌氧流化床微生物燃料电池（AFB-MFC）的性能,并为双室MFC寻找价廉、易得、无污染的阴极液,在曝气量16～24 L/h、温度（35±2）℃、回流量10.2 L/h、阴极底边距阴极室内底部17.3 cm、外电阻250 Ω、水力停留时间（HRT）14.0～14.9 h以及进水pH 7.81～8.37下,研究了阴极液及底物浓度对系统产电及废水处理性能的影响。结果表明,使用缓冲溶液、阳极室出水和自来水作阴极液时,自来水的产电性能最佳,阴极液种类不影响系统有机基质的去除。以自来水为阴极液时,阴极液pH及电导率随运行时间增加而增加,COD去除率为80.11%～89.29%,输出电压及功率密度开始随运行时间增加而增加,之后稳定在440～452 mV和48.40～51.08 mW/m²之间。增加底物浓度对COD去除率影响不大,而输出电压及功率密度随底物浓度增加而下降;底物COD浓度由3 307.09 mg/L增至9 520 mg/L时,COD去除率在85.77%～94.44%之间,输出电压及功率密度则分别由449 mV和50.40 mW/m²下降至406 mV和41.21 mW/m²。自来水作阴极液可避免二次污染及阴极液对阳极室微生物的影响,并得到高的产电能力。     

曝气量对悬浮系统单级自养脱氮性能的影响

通过连续实验和间歇实验研究了不同曝气量对SBR系统自养脱氮性能的影响。连续实验表明,在进水氨氮浓度为155～185 mg/L时,曝气量分别为20、28、36和44 L/h时,TN去除率分别为80%、82%、80%和77%;增大和减小曝气量均会降低系统的脱氮效率。间歇实验表明,随着曝气量的增加,氨氮的降解速率有所升高,20、28、36和44 L/h曝气条件下氨氮的降解速率分别为7.23、7.25、7.86和7.95 mg/(g MLVSS.h);在降解的过程中DO浓度一直维持在较低的水平(<0.5 mg/L),pH值则呈先升高后降低的趋势;氨氮降解结束时,pH值和DO浓度同时升高。结果表明,改变曝气量会影响单级自养脱氮反应的进程,但对降解过程DO浓度值变化不大;DO浓度和pH值变化对氨降解结束具有指示作用。     

Improving nitrogen removal in two modified decentralized wastewater systems

Efficient nutrient removal in decentralized wastewater treatment systems is a challenging task. To improve the removal of organic matter and nitrogen from wastewater, two types of bioreactors using membrane-aerated biofilm reactor (MABR) and microbial fuel cell (MFC) techniques were evaluated. During more than 250 days of continuous-flow reactor operation, both reactors showed consistently high chemical oxygen demand removal (>86%). At an influent ammonium-nitrogen (NH4(+)-N) concentration of 30 mg N/L, the average effluent NH4(+)-N concentrations were 6.2 and 0.5 mg N/L for the MABR and MFC reactor, respectively, while the effluent nitrate-nitrogen (NO3(-)-N) concentrations were 5.4 mg/ L in the MABR and 19.2 mg/L in the MFC-based reactor. The overall total inorganic nitrogen removal efficiencies were 64% and 36% for the MABR and MFC reactor, respectively. At the measured dissolved oxygen concentrations of 5.2 and 0.23 mg/L in the aerobic/anoxic zone of the MFC and MABR, respectively, a specific oxygen uptake rate of 0.1 g O2/g VSS-d, resulting from ammonia oxidation, was detected in the settled sludge of the MFC, while no nitrifying activity of the sludge from the MABR was detected. Molecular microbial analysis demonstrated a link between the bacterial community structure and nitrifying activity. The relatively high abundance of Nitrosomonas europaea was associated with its detectable nitrification activity in the settled sludge of the MFC. The results suggest that MABR and MFC techniques have the potential to improve organic and nitrogen removal in decentralized wastewater systems.     

Factors influencing silver recovery and power generation in bio-electrochemical reactors

The recovery of silver from Ag⁺ solution coupled with power generation was investigated in bio-electrochemical system (BES). In this system, chemical energy existing in the organic matter in the anode chamber can be converted biologically to electrical energy which can be used for the reduction of Ag⁺ ions in the cathode chamber. Results showed that type of substrate influenced the metabolic pathway and affected the cell voltage progression, and columbic efficiency. Silver recovery was not affected by increasing initial pH (2.0 to 7.0) and Ag⁺ concentration (100 to 1000 mg/L) in the catholyte, whereas power generation was improved. A maximum power density of 8258 mW/m³ and a columbic efficiency of 21.61% could be achieved with 1000 mg/L of Ag⁺. Ag⁺ ions were reduced to form metallic deposits as Ag⁰ crystals on the cathode surface, which were then confirmed by scanning electron microscope (SEM) image and energy dispersive X-ray (EDX) spectrum. The BES reactor had high silver removal (i.e., >96%) after 24 h of operation. When considering the crossover of Ag⁺ ions through the cation exchange membrane, the removal was in the range of 83.73–92.51%. This crossover was not considerable as compared to the Ag⁺ initial concentration. At higher initial Ag⁺ concentration (2000 mg/L), the silver removal decreased to 88.61% and the maximum power density decreased to 5396 mW/m³. This study clearly showed that BES can be employed for silver recovery, wastewater treatment, and also electricity generation.     

固定化微生物强化处理对甲苯胺模拟废水的研究

采用新型固定化载体大孔吸附树脂X-5固定化微生物强化SBR处理对甲苯胺模拟废水,与对照组相比,通过投加大孔吸附树脂X-5固定化微生物可以有效提高反应器的处理效率.在进水TOC浓度为434.8 mg/L,对甲苯胺浓度为326.9 mg/L的条件下,强化组可在100 min左右将TOC和对甲苯胺基本去除完全,去除率在99%以上.对照组则需要300min才能达到相近的去除效果.强化组对氨氮同样具有较好的硝化效果,出水氨氮浓度在10 mg/L以下.     

固定化微生物强化处理对甲苯胺模拟废水的研究

采用新型固定化载体大孔吸附树脂X-5固定化微生物强化SBR处理对甲苯胺模拟废水，与对照组相比，通过投加大孔吸附树脂X-5固定化微生物可以有效提高反应器的处理效率。在进水TOC浓度为434．8mg／L，对甲苯胺浓度为326．9mg／L的条件下，强化组可在100min左右将TOC和对甲苯胺基本去除完全，去除率在99％以上。对照组则需要300min才能达到相近的去除效果。强化组对氨氮同样具有较好的硝化效果，出水氨氮浓度在10mg／L以下。     

竹丝生物膜法和生态床组合工艺废水处理的试验研究

研究了竹丝生物膜法和生态床组合工艺处理模拟废水,讨论了该组合工艺对模拟废水中COD、氨氮和浊度的去除效果,着重讨论了生态床处理效果的影响因子。试验结果表明,竹丝生物膜法能很好地去除COD、氨氮和浊度等,在水温为9.0～10.5℃、水力停留时间为5.0h、进水COD为98.78～222.69mg/L、氨氮为5.46～12.97mg/L、浊度为26.42～59.84NTU时,出水COD为11.53～20.38mg/L,氨氮为0.42～0.86mg/L,浊度为12.38～17.30NTU。竹丝生物膜法出水再经过简易的生态床工艺,生态床出水COD为9.59～18.84mg/L,氨氮为0.43～0.90mg/L,浊度为6.77～14.15NTU;在此过程中发现,生态床中的鱼类对浊度和COD的去除均有明显效果,而光合作用对生态床COD的去除有促进作用,但是生态床对氨氮浓度却有升高作用。