预处理方法对玉米芯作为反硝化固体碳源的影响

分别用1.5%NaOH、1%H2SO4、1.5%H2O2和碱性双氧水(含有1.5%H2O2的NaOH溶液)并联合紫外照射对玉米芯进行预处理,将预处理后玉米芯作为反硝化固体碳源和微生物载体进行静态释碳和静态反硝化实验,考察预处理后玉米芯释碳、反硝化性能及微生物附着情况.结果表明,经过碱和碱性双氧水预处理后的玉米芯碳源可利用性和反硝化效率均有显著的改善,尤其是碱预处理方法,静态反硝化反应至41 d时,仍能保持90%以上的硝酸盐去除率.因此,碱预处理方法可以改善玉米芯释碳性能,有利于微生物的附着和碳源的利用.     

Effects of different pretreatment methods on anaerobic mixed microflora for hydrogen production and COD reduction from palm oil mill effluent

Effects of different pretreatment methods on sludge inocula were evaluated with respect to hydrogen (H₂) production enhancement using palm oil mill effluent (POME) in a batch system. The experimental results showed that the pretreatment methods (chemical, acid, heat-shock, freezing and thawing, and base) at 35 °C and initial pH 5.5 had a positive influence on H₂ production yield and chemical oxygen demand (COD) removal efficiency during the fermentative H₂ production as compared to the control experiments (without pretreatment). Heat-shock pretreatment method was shown to be a simple and useful method for enhancing both H₂ producing and COD removal processes from POME with highest H₂ yield and COD removal efficiency at 0.41 mmol H₂/g COD and 86%, respectively.     

不同氧化剂辅助光催化反应对提高木质纤维素酶解效果的影响

木质纤维素以其可再生、丰富等优点成为可替代能源的理想选择,然而木质纤维素的致密结构使得后续的酶解过程极其困难,因此木质纤维素的预处理显得尤为重要.为了探讨氧化剂对光催化反应预处理木质纤维素的影响,在TiO₂/UV体系中添加不同种类的氧化剂对稻秆进行预处理,考察TiO₂/UV体系中影响光催化的因素〔ρ（TiO₂）、溶液pH及光催化时间〕,并进一步探讨在TiO₂/UV体系中添加O₃、SPC（过碳酸钠）、K₂S₂O₈及KIO₄等氧化剂对稻秆酶解效果的影响.结果表明:在TiO₂/UV体系中,当光催化时间为3 h、ρ（TiO₂）为10 g/L、pH为8时,稻秆的酶解效果最佳（310.17 mg/g）.TiO₂/UV/O₃光催化体系对稻秆的预处理效果强于TiO₂/UV/氧化剂体系,TiO₂/UV/O₃体系预处理稻秆酶解后产生的w（还原糖）最高,达到356.40 mg/g.TiO₂/UV/O₃体系预处理稻秆成分分析显示,木质素去除率为15.52%.FE-SEM（场发射扫描电镜）、FT-IR（红外光谱）及PXRD（X-射线粉末衍射）等表征分析结果表明,TiO₂/UV/O₃体系预处理能够对稻秆结构进行破坏.研究显示,TiO₂/UV/O₃光催化体系对稻秆进行预处理能够有效提高酶解效率.      

Thermochemical pretreatment of meat and bone meal and its effect on methane production

Since the solubilization of meat and bone meal (MBM) is a prerequisite in many MBM disposal approaches, enhancement of the solubilization by means of thermochemical pretreatment was investigated in this study at two temperatures (55°C and 131°C) and six sodium hydroxide (NaOH) concentrations (0, 1.25, 2.5, 5, 10 and 20 g/L). The MBM volatile solid (VS) reduction ratio was up to 66% and 70% at 55°C and 131°C, respectively. At the same temperature, the VS reduction ratio increased with the increase in the dosage of NaOH. The study on the methane (CH₄) production potential of pretreated MBM shows that the addition of NaOH at 55°C did not cause the inhibition of the succeeding CH₄ production process. However, CH₄ production was inhibited by the addition of NaOH at 131°C. The CH₄ production potential was in the range of 389 to 503 mL CH₄/g VS MBM and 464 to 555 mL CH₄/g VS MBM at 55°C and 131°C, respectively.     

碱后处理对互花米草沼渣理化特性的影响研究

以互花米草厌氧发酵后的沼渣为原料,采用紫外扫描、FTIR、XRD、1H-NMR、13C-NMR和其他一些常规分析手段研究了5%NaOH溶液固态处理前后,互花米草沼渣的物质结构、物质组成以及水浸提液理化特性的变化.结果表明,经5%的NaOH溶液处理48 h后,互花米草沼渣的骨架结构并未受到破坏,只是某些官能团的结构受到破坏;碱处理后,互花米草沼渣中木质素碎片化,木质素的芳香环结构受到不同程度的破坏,但木质素含量稍有增加;碱处理破坏了互花米草沼渣中纤维素的结晶结构,形成可被厌氧微生物破坏的类似结晶区结构,结晶区的比例增加,纤维素相对含量增加;碱处理后,互花米草沼渣中羧酸盐破坏严重,沼渣中羧基碳含量降低,烷烃类物质也受到一定的破坏,半纤维素相对含量降低;碱处理后,互花米草沼渣中烷基碳和芳香碳含量均降低,烷氧碳含量增加,芳香度降低,表明碱处理后互花米草沼渣的脂肪族特性增强,可生物降解性能提高.     

改性丝瓜络填料对富营养化水体的高效脱氮特性

生物膜技术是污水处理的研究热点之一,但存在挂膜时间长、反硝化碳源供给不足等问题.为解决这一问题,以不同浓度NaOH溶液（对照组、2%、5%和10%）对丝瓜络进行改性处理,再将其作为挂膜填料构建BDBR（biofilm denitrification batch reactor,生物膜原位脱氮系统）,研究BDBR的脱氮效能.结果表明:①当系统运行至第4天时,对照组、2%组、5%组和10%组反应器的COD_Cr去除率趋于稳定,分别为78.9%、76.8%、80.8%和73.9%;当系统运行14 d时,对照组、2%组、5%组和10%组反应器的TN去除率趋于稳定,分别为67.2%、90.8%、91.9%和83.2%;而当系统运行至第10天时,2%组、5%组和10%组反应器对NH₃-N的去除率趋于稳定,依次为82.8%、88.4%和78.8%,显著高于对照组（68.1%）.②改性丝瓜络反应器的膜生物量（2%组、5%组和10%组）均显著高于未进行改性处理的对照组,且随NaOH溶液浓度从2%增至10%,对应反应器膜生物量从12.12×106 nmol（以每g干质量磷脂计）增至24.02×106 nmol.③改性丝瓜络填料上的生物膜的硝化、反硝化菌数量均显著高于未改性处理的丝瓜络填料的硝化、反硝化菌数量.研究显示,丝瓜络填料所构建的BDBR对富营养化河道水中的COD_Cr均有较高的去除能力,这与丝瓜络是否进行改性无关.但用浓度为2% NaOH溶液对丝瓜络进行改性处理后构建的BDBR体现出了最高的生物膜硝化、反硝化菌数量和最好的脱氮效果,可应用于富营养化水体的BDBR中,以实现生物膜的快速构建和系统的稳定运行.      

Degradation of direct azo dye by Cucurbita pepo free and immobilized peroxidase

Enzymatic decolourization of the azo dye, Direct Yellow (DY106) by Cucurbita pepo (courgette) peroxidase (CP) is a complex process, which is greatly affected by pH, temperature, enzyme activity and the concentrations of H₂O₂ and dye. Courgette peroxidase was extracted and its performance was evaluated by using the free-CP (FCP) and immobilized-CP (ICP) forms in the decolourization of DY106. Immobilization of peroxidase in calcium alginate beads was performed according to a strategy aiming to minimize enzyme leakage and keep its activity at a maximum value by optimizing sodium alginate content, enzyme loading and calcium chloride concentration. The initial conditions at which the highest DY106 decolourization yield was obtained were found at pH 2, temperature 20℃, H₂O₂ dose 1 mmol/L (FCP) and 100 mmol/L (ICP). The highest decolourization rates were obtained for dye concentrations 50 mg/L (FCP) and 80 mg/L (ICP). Under optimal conditions, the FCP was able to decolorize more than 87% of the dye within 2 min. While with ICP, the decolourization yield was 75% within 15 min. The decolourization and removal of DY106 was proved by UV-Vis analysis. Fourier transform infrared (FT-IR) spectroscopy analysis was also performed on DY106 and enzymatic treatment precipitated byproduct.     

Pseudomonas sp. GL1利用不同预处理污泥产氢及其底物变化研究

采用厌氧发酵的方法研究Pseudomonas sp.GL1利用灭菌、微波和超声波预处理污泥产氢效果,讨论3种预处理污泥产氢效果的差异,并对污泥发酵过程中底物性质变化(SCOD、可溶性蛋白质、总糖和pH值等)进行了探讨.实验结果显示,产氢菌Pseudomonas sp.GL1发酵各预处理污泥过程中均只有H2和CO2产生,无CH4产生.3种不同预处理污泥同等条件下发酵,灭菌污泥的产氢效果最佳,氢气含量高达81.45%,产氢率为30.07mL·g-1.超声波处理污泥产氢延迟时间最短(3 h);灭菌污泥最长(15 h);微波预处理污泥为12 h.在预处理污泥发酵产氢过程中,各种污泥性质变化情况各不相同,尤其是灭菌污泥,这说明不同的预处理方法影响Pseudomonas sp.GL1发酵过程对污泥中营养物质的利用.     

Effect of operating parameters on sulfide biotransformation to sulfur

A laboratory-scale bioreactor with polyethylene semi-soft packing was constructed and utilized to determine the efficlency of sulfide biotransformation to sulfur under various operating parameters. Sodium sulfide dissolved in tap water was pumped into the bioreactor as sulfide for biological desulfurization. The sulfide, sulfur and sulfate-S in the effluent and the sulfide purged as gas-phase HzS were determined to investigate the effects of operating parameters, such as pH, DO, hydraulic retention time （HRT）, temperature and salinity, on the sulfide oxidation products. The activity of bacteria was highest at pH 7.8-8.2. The maximal sulfide removal load was 7.25 kg/（m^3·day）, with a 322.07 mg/L influent sulfide concentration and 4.80 mg/L DO. The increase of DO value corresponds to a decrease in the sulfur yield. The reactor had the highest sulfide removal load and sulfur yield at 2.55 mg/L DO. HRT had little effect on desulfurization efficiency when the sulfide removal load was kept constant. The most effective desulfurization temperature was 33℃. The sulfide removal load decreased from 2.85 to 0.51 kg/（m^3.day） with increasing salinity from 0.5% to 2.5% （m/m）.     

利用养殖场废水厌氧发酵生物制氢技术研究

在批式厌氧反应器中,以厌氧消化污泥作为天然产氢菌源,通过养殖场废水的厌氧发酵生产氢气,考察了厌氧污泥和碳氮营养物质对养殖场废水产氢的影响,并对液相产物的分布、产氢动力学进行了分析.试验分为4个处理.结果表明,加入营养物质接种污泥的养殖场废水氢气含量、累积产氢量和单位COD氢气产量最高可达到50.65%、334.80mL和287.10mL/g.而未接种污泥的原始养殖场废水累积产氢量和单位COD氢气产量仅为59.24mL和67.05mL/g.污泥和碳氮营养物质对产氢能力均有显著地促进作用,加入碳氮源后微生物群促进了原养殖废水有机物的氢的形成.液相末端产物中,乙酸、丁酸占总挥发酸的61%～86%,产氢过程属于典型的乙酸-丁酸型发酵.总挥发性酸含量的提高,其产氢能力也增大. Gompertz模型能够很好地拟合其产氢过程.     

活性炭催化过氧化氢去除荧光增白剂

研究了活性炭(activated carbon,AC)吸附、改性活性炭(activated carbon modified,ACM)吸附、过氧化氢(H2O2)氧化、AC催化H2O2等方法对水体中荧光增白剂VBL的处理效果,并通过自由基俘获剂叔丁醇、催化过程气体分析等探讨了AC催化H2O2分解VBL的机制.结果表明,经硝酸铁[Fe(NO3)3]改性过的ACM对VBL的吸附去除率高于未改性的AC.活性炭催化H2O2对VBL的去除效果明显,但未改性AC催化去除率高于ACM.60 min时,AC催化氧化去除率即可达到95%以上,而ACM仅为58%.叔丁醇的加入降低了AC和ACM催化氧化对VBL的去除率,表明AC催化H2O2氧化能促进H2O2形成羟基自由基(·OH)和原子氧参与反应.AC催化H2O2分解及释放气体分析表明,AC能催化H2O2形成氧气并放热,且ACM明显快于AC.结合催化H2O2去除VBL效率的结果分析,ACM催化反应时活性中间物(自由基和原子氧等)产生速率快于AC,活性中间物自身消耗形成氧气,而不是用于分解VBL.催化反应中活性中间产物的形成速率与反应物供给速率的不匹配可能是导致ACM催化效果弱于AC的重要原因.     

Aerobic N2O emission for activated sludge acclimated under different aeration rates in the multiple anoxic and aerobic process

Nitrous oxide (N₂O) is a potent greenhouse gas that can be emitted during biological nitrogen removal. N₂O emission was examined in a multiple anoxic and aerobic process at the aeration rates of 600 mL/min sequencing batch reactor (SBR_L) and 1200 mL/min (SBR_H). The nitrogen removal percentage was 89% in SBR_L and 71% in SBR_H, respectively. N₂O emission mainly occurred during the aerobic phase, and the N₂O emission factor was 10.1% in SBR_L and 2.3% in SBR_H, respectively. In all batch experiments, the N₂O emission potential was high in SBR_L compared with SBR_H. In SBR_L, with increasing aeration rates, the N₂O emission factor decreased during nitrification, while it increased during denitrification and simultaneous nitrification and denitrification (SND). By contrast, in SBR_H the N₂O emission factor during nitrification, denitrification and SND was relatively low and changed little with increasing aeration rates. The microbial competition affected the N₂O emission during biological nitrogen removal.     

Biological hydrogen production from organic wastewater by dark fermentation in China: Overview and prospects

Biological hydrogen production by dark fermentation is an important part of biological hydrogen production technologies. China is a typical developing country that heavily relies on fossil fuels; thus, new, clean, and sustainable energy development turns quite urgent. It is delightful that Chinese government has already drawn up several H₂ development policies since 1990s and provided financial aid to launch some H₂ development projects. In this paper, the research status on dark fermentative hydrogen production in China was summarized and analyzed. Subsequently, several new findings and achievements, with some of which transformed into scale-up tests, were highlighted. Moreover, some prospecting coupling processes with dark fermentation of hydrogen production were also proposed to attract more research interests in the future.     

生物滴滤塔净化多组分废气的研究

通过生物滴滤塔(biotrickling filter,BTF)净化硫化氢(H2S)、四氢呋喃(THF)、二氯甲烷(DCM)混合废气,研究其挂膜启动和稳定运行条件下的降解性能.结果表明,混合废气H2S、THF、DCM浓度分别为200、100和100 mg·m-3,空床停留时间(empty bed retention time,EBRT)50～20 s的条件下,H2S和THF的去除率分别能够维持在99%和60%左右,而DCM的去除率随EBRT的缩短从90%逐渐降低至37%左右.利用Michaelis-Menten动力学模型分析得到,理论降解效果为H2S>THF>DCM.     

介质阻挡放电中添加乙炔对NO脱除的影响

利用介质阻挡放电(DBD)进行模拟烟气脱除NO实验,通过改变乙炔体积分数和烟气水蒸汽含量研究添加乙炔对NO脱除效率的影响.结果表明:烟气中添加乙炔强化了NO氧化作用,随着乙炔体积分数的提高,NO脱除率逐渐增加.在NO/N2/O2/C2H2/H2O体系中,水的电负性和离解反应消耗大量高能电子,降低了活性自由基的生成,NO脱除速率随之减慢;能量密度低于400 J·L-1时,相对湿度(RH)为0的情况下脱出效果最好.但随着能量密度的增加,H2O不会影响最终的NO脱除率;H2O的添加可以产生更多的·OH自由基,促进NO2向HNO3转化,使出口NO2浓度大幅度降低.     

酸碱预处理对常压微波辐射剩余活性污泥磷释放的影响

考察了污泥酸、碱预处理在常压微波处理过程中对碳、氮、磷释放的影响.结果表明,NaOH预处理将污泥磷释放率从28.8%提高到59.1%,但同时引起了碳、氮的大量释放.同碱预处理相比,硫酸预处理能够将常压微波辐射作用下污泥磷的释放率提高3倍,达到84.5%,并可达到选择性释放碳、氮、磷的效果（氮和COD释放少,而磷释放显著）,有利于后续的磷回收.优化试验表明,pH为2.1～2.2是常压微波辐射作用下污泥磷释放的最佳硫酸预处理条件.     

直流电场强化活性污泥法处理木质素废水的效能、污泥特性及群落结构研究

以溶解态木质素模拟废水为研究对象,考察了不同直流电场条件下活性污泥反应器(R1,无电流,悬浮污泥)、电极生物膜反应器(R2,电流I=10~60 mA,无悬浮污泥)与电极生物膜-活性污泥反应器(R3,I=10~60 mA,悬浮污泥)中木质素废水的处理效能、污泥生理特性(活菌比、木质素过氧化物酶(LiP)、三磷酸腺苷(ATP)等)、细胞膜磷脂脂肪酸组成及微生物群落结构的差异.结果表明:相同的外加电流下,R3的木质素去除率均高于R2(p0.05),其中,30 mA时达到最大值30.19%±0.47%,分别为R1、R2木质素去除率的2.01倍和1.46倍.反应器R2在20~40 mA时的总氮去除效果最好,达到71.96%±5.79%.分析R1、R3悬浮污泥发现,外加电流升高不改变悬浮污泥的活菌比(p0.05),木质素去除率受LiP酶活影响不大;与低电流(10~30 mA)相比,高电流(40~60 mA)下悬浮污泥中C15∶0 ANTEISO的含量降低,长链磷脂脂肪酸(C19、C20)的相对含量增加;R3悬浮污泥中Flavobacterium、Pseudomonas和Janthinobacterium等可降解木质素的菌属在10 mA外加电流的刺激下相对丰度均最高.在电极微生物方面,与R3相比,R2阴极微生物中具有反硝化能力的Methyloversatilis成为优势菌属,阳极微生物中存在更多具有电子传递能力的菌属(Pseudomonas、Ralstonia).冗余分析(RDA)表明,悬浮污泥中Mycobacterium(降解木质素的好氧细菌)丰度与电流(I)显著正相关(p0.05),与不饱和脂肪酸(UFA)显著负相关(p0.05).     

蠡河底泥中反硝化复合菌群富集及菌群结构研究

从无锡市滨湖区蠡河底泥中富集培养反硝化复合菌群,研究其在不同富集培养阶段TN、NO-3-N、NO-2-N、NH+4-N和COD动态变化,分析反硝化过程中气体释放总量、释放速率和成分,通过构建全长16S r DNA克隆文库研究其菌落结构.结果表明,反硝化复合菌群富集在阶段4时脱氮效果最佳,仅在9 h内,330 mg·L-1的TN负荷下,TN去除率达90.9%,NO-3-N去除率达100%,中间产物NO-2-N和NH+4-N积累量最少,分别为3.39 mg·L-1和16.64 mg·L-1,COD去除率达85%;释放气体260m L,气体主要成分为N2,同时还有少量的CH4和CO2等.富集培养反硝化复合菌群细菌属于Pseudomonadaceae科和Rhodocyclaceae科,为Proteobacteria门,OUT丰度分别为57.8%和31.6%,Pseudomonadaceae科是优势类群.     

菌株Enterococcus sp.Y025利用海带水解液生长及产絮凝性质分析

利用盐酸和硫酸分别对海带进行预处理,通过测定还原糖得率及葡萄糖含量,分析海带水解效率。结果表明,盐酸浓度为1%时,海带还原糖得率为24.16%,葡萄糖含量达到0.32 mg/mL,海带水解效率较高。在不添加K₂HPO₄和KH₂PO₄等磷酸盐时,产絮凝菌株Y025（Genbank号为:KX950932）在不同海带水解液体积比（20%、40%、60%、80%和100%）培养条件下,都能够生长并具有产絮凝性质。海带水解液体积比为80%时,菌株Y025具有最高产絮凝率（52.91%）。菌株Enterococcus sp.Y025能够利用海带水解液生长并具有产絮凝性质,这为探究生物絮凝剂的规模化应用提供理论依据。     

碱处理对秸秆厌氧消化的影响

为减少秸秆碱处理的碱用量,提高秸秆的产气量,从产气量、XRD和FTIR等角度对碱预处理与后处理进行了初步比较,并对碱处理前后秸秆浸提液的理化性质以及秸秆的物质结构变化进行了分析.结果表明,秸秆经5%NaOH处理48 h后,细胞中的有机物大量溶出,COD、TN、NO 3--N和NH 4+-N分别从2 311.11、175.40、5.02和117.82 mg/L增至10 488.89、417.84、248.64和141.44 mg/L,表明碱处理不仅破坏木质纤维结构,还破坏核酸、氨基酸等含氮物的结构,将其中的氮以NO 3--N和NH 4+-N的形式释放出来;碱处理破坏了秸秆木质素结构,木质素含量降低,但纤维素的相对结晶度增加,从0.592 3增加到0.662 2.厌氧消化的结果显示,秸秆预处理与后处理的产气能力相当,单位TS产气量分别为382.32 mL/g和375.84 mL/g,较对照分别提高了28.13%和25.96%,但后处理的碱用量仅为预处理的50%;厌氧发酵后对照中的木质素含量增加,而预处理和后处理均降低,后处理对木质素的破坏效果更好;厌氧微生物可破坏纤维素的结晶区,后处理对纤维素结晶区和无定形区的破坏均强于预处理.