金属铁铝对混凝强化初沉污泥中温厌氧消化的影响

选取FeCl3和AlCl2·6H2O作为混凝剂对城市污水进行一级强化混凝处理,降低二级生物处理的进水负荷,减少污水生物处理系统的能量消耗。主要研究混凝过程投加的金属盐对一级强化混凝产生的初沉污泥中温厌氧消化的影响。和剩余污泥相比,初沉污泥更适合厌氧消化处理,污泥降解性能和产气性能更高。当采用城市污水一级强化混凝处理时,污泥中的金属和金属盐水解引起的pH降低,使混凝强化初沉污泥的厌氧消化受到一定抑制。随着污泥中铝含量的降低和铁含量的增加,厌氧消化的COD降解率和挥发性固体（Vs）降解率逐渐升高,生物气产量逐渐增大,产气速率加快。当混凝强化初沉污泥只含有铁时（铁含量为10．16mg／L）,混凝强化初沉污泥厌氧消化效果最好,产气稳定,而且产气速率高,生物气产量为237mL,生物气甲烷含量为55．5％,降解单位Vs产气量为0．80L／g,均高于其他含铝的混凝强化初沉污泥。污泥中的铁对初沉污泥厌氧消化的抑制作用远远小于铝的作用,说明铁盐适合用于城市污水的一级强化混凝处理。     

金属铁铝对混凝强化初沉污泥中温厌氧消化的影响简

选取FeCl₃和AlCl₃·6H₂O作为混凝剂对城市污水进行一级强化混凝处理,降低二级生物处理的进水负荷,减少污水生物处理系统的能量消耗。主要研究混凝过程投加的金属盐对一级强化混凝产生的初沉污泥中温厌氧消化的影响。和剩余污泥相比,初沉污泥更适合厌氧消化处理,污泥降解性能和产气性能更高。当采用城市污水一级强化混凝处理时,污泥中的金属和金属盐水解引起的pH降低,使混凝强化初沉污泥的厌氧消化受到一定抑制。随着污泥中铝含量的降低和铁含量的增加,厌氧消化的COD降解率和挥发性固体（VS）降解率逐渐升高,生物气产量逐渐增大,产气速率加快。当混凝强化初沉污泥只含有铁时（铁含量为10.16 mg/L）,混凝强化初沉污泥厌氧消化效果最好,产气稳定,而且产气速率高,生物气产量为237 mL,生物气甲烷含量为55.5%,降解单位VS产气量为0.80 L/g,均高于其他含铝的混凝强化初沉污泥。污泥中的铁对初沉污泥厌氧消化的抑制作用远远小于铝的作用,说明铁盐适合用于城市污水的一级强化混凝处理。     

Herbicide safeners: uses,limitations, metabolism,and mechanisms of action

Several methods were examined to minimize crops injury caused by herbicides. Thus increase their selectivity. A selective herbicide is one that controls weeds at rates that do not injure the crop. Herbicides are selective in a particular crop within certain limits imposed by the herbicide, the plant, the application rate, the method and time of application, and environment conditions. Herbicide safeners are compounds of diverse chemical families. They are applied with herbicides to protect crops against their injury. Using chemical safeners offer practical, efficient and simple method of improving herbicide selectivity. This method has been applied successfully in cereal crops such as maize, rice and sorghum, against pre-emergence thiocarbamate and chloroacetanilide herbicides. Some reports indicate promising results for the development of safeners for post-emergence herbicides in broadleaved crops. Various hypotheses were proposed explaining mechanisms of action of herbicide safeners: interference with uptake and translocation of the herbicide, alteration in herbicide metabolism, and competition at site of action of the herbicide. Even though progress was made in the development of herbicide safeners and in understanding their mechanisms of action, more research is needed to elucidate clearly how these chemicals act and why their activity is restricted to particular crops and herbicides.     

农作物秸秆干式厌氧发酵实验研究

在温度32～35℃下,研究了小麦秸秆不同固含率和粒径范围的厌氧发酵过程。结果表明：无论产气量还是产酸和用酸平衡上,固含率25%是较适宜物料厌氧发酵的浓度,产气量249 mL/g;小麦秸秆在固含率15%～25%范围内,理论产气数值与实际气体量成线性相关,相关系数r=0.9842;3种不同粒径的产气量最大为＜0.5 cm,其次为1～2 cm,3～5 cm,考虑到粒径小容易酸化的原因,故选择秸秆厌氧发酵的粒径范围＜2 cm。     

厌氧系统中碱处理对污泥减量的影响

碱解预处理污泥和原污泥按一定比例进行混合后,投入厌氧反应器中进行消化,研究其对污泥减量化的影响。结果表明,该处理既可以提高污泥减量率,又能改善污泥厌氧消化性能,提高污泥产气量。当碱处理污泥和原污泥混合比为1∶3时,在混合初期由于稀释作用和水解中和作用,溶液的pH能迅速恢复到中性。SS减少48%,较对照组提高了10%;SCOD减少约80%,较对照组提高20%,而空白对照组因未发生溶胞作用,各参数值均处于较低水平,降解率也维持在较低水平。     

臭氧预处理对剩余污泥特性及厌氧消化的影响

研究了臭氧预处理对剩余污泥特性及厌氧消化的影响,考察了臭氧投加量对污泥特性的影响,并进行了预处理后污泥厌氧消化产气的实验。结果表明,当臭氧处理时间为15 min时,污泥上清液中SCOD含量达到最高为1 006.08 mg·L-1,较未处理污泥提高了420.85%。污泥上清液中蛋白质和多糖含量在臭氧处理时间为10 min时达到最高。氨氮的含量在15 min时达到最大值。三维荧光结果显示随着臭氧投加量的增加污泥中的富里酸类物质有不同程度的减少,在臭氧处理时间为20 min时富里酸类物质减少量最为明显。显微镜和扫描电镜结果显示随着臭氧投加量的增加污泥中的微生物细胞结构受到了不同程度破坏。厌氧消化结果显示当臭氧处理时间为10 min时,污泥产甲烷率达到最高为318.39 mL·（g·VS）-1,较空白对照组提高了396.00%。     

The fate of chlorobenzenes and permethrins during anaerobic sewage sludge digestion

Mixed primary sewage sludge was incubated anaerobically with and without azide addition to prevent biological activity. The behaviour of 1,3-, 1,4- and 1,2-dichlorobenzene, 1,3,5-, 1,2,4- and 1,2,3-trichlorobenzene, 1,2,3,4- and 1,2,4,5-tetrachlorobenzene, hexachlorobenzene, and cis- and trans-permethrin was examined to determine their potential removal during anaerobic digestion. All the chlorobenzenes were removed to varying extents over 32 days of incubation, ranging from 25% removal for 1,3,5-trichlorobenzene to 80% removal for 1,4-dichlorobenzene. Biodegradation may have been responsible for the reductions in 1,3- and 1,4-dichlorobenzene and 1,2,4- and 1,2,3-trichlorobenzene as there was no significant removal of these compounds in azide treated sludge. The removal over 32 days of cis- and transpermethrin was 87% and 96% respectively. These removals were attributed to a chemical or physical process.     

Effects of biochar addition on the anaerobic digestion of carbohydrate-rich,protein-rich,and lipid-rich substrates

ABSTRACT

Although biochar addition into the anaerobic digestion of food waste (FW) is an efficient means to enhance methane production, the effects of biochar on various FW components remain unclear. Laboratory batch experiments were conducted to investigate the impact of sewage sludge-derived biochar (SSB) supplementation on the anaerobic digestion (AD) of major FW components, including carbohydrate-rich, protein-rich, and lipid-rich substrates. The lag phase of AD with the carbohydrate-rich substrate was 48.6% shorter when SSB was added, and the cumulative methane yield was 4.74 times higher compared to AD without biochar. SSB supplementation also increased the rate of methane production from the lipid-rich substrate. However, the effect of SSB addition on AD of the protein-rich substrate was minor. Analysis of the microbial communities revealed that methanogen growth was enhanced during AD of the carbohydrate-rich and lipid-rich substrates, but not the protein-rich substrate, following SSB supplementation. Also, the most dominant methanogenic genus varied with the substrates. SSB addition promoted the growth of hydrolytic and fermentative bacteria, particularly phylum Bacteroidetes.

Implications: Biochar supplementation has been studied to overcome the shortcomings of anaerobic digestion (AD). However, the effects of biochar on different substrates remain unclear. This study compared carbohydrate-rich, protein-rich, and lipid-rich substrates in anaerobic digestion with sewage sludge-derived biochar (SSB). SSB supplementation improved methane generation from all but the protein-rich substrate. The study results imply that the effect of SSB addition on AD varied with the substrate due to the substrates underwent different degradation processes with different microbial communities.     

Performance and stability of two-stage anaerobic digestion.

The stability, capacity, and solids destruction efficiency of single versus two-stage anaerobic digestion was studied in bench-scale reactors using combined waste activated and primary sludge. Laboratory staged mesophilic digesters showed an improved volatile solids and volatile suspended solids destruction efficiency over a single-stage system (at the same total solids retention time [SRT]) of approximately 3.2 and 5.8 percentage points, respectively. To quantify stability and capacity, a new digester monitoring method was introduced that measured the digester maximum acetate utilization capacity, V(max,ac), and was used to investigate the potential for digester instability at different transient loadings. The ratio of the V(max,ac) value to the estimated acetate production rate for a given digester loading was termed the acetate capacity number (ACN). Values greater than 1.0 indicate excess acetate utilization capacity. The first stage of the laboratory two-stage mesophilic system (10-day SRT for each stage) had an ACN number of 1.3 compared with a value of 1.8 for the single-stage 20-day SRT digester. Thus, while a staged mesophilic system can improve solids destruction efficiency, it demonstrates a lower capacity for metabolizing highly variable loads.     

Destruction of lindane and atrazine using stabilized iron nanoparticles under aerobic and anaerobic conditions: effects of catalyst and stabilizer

Highly stable Fe-Pd bimetallic nanoparticles were prepared with 0.2% (w/w) of sodium carboxylmethylcellulose (CMC) as a stabilizer. The effectiveness of the stabilized Fe-Pd nanoparticles was studied for degradation of two chlorinated pesticides (lindane and atrazine) under aerobic and anaerobic conditions. Batch kinetic tests showed that under anaerobic condition the nanoparticles can serve as strong electron donors and completely reduce 1 mgl(-1) of lindane at an iron dose of 0.5 gl(-1) or 1mg l(-1) of atrazine with 0.05 gl(-1) iron with a trace amount (0.05-0.8% of Fe) of Pd as a catalyst. In contrast, under aerobic condition, the nanoparticles can facilitate Fenton-like reactions, which lead to oxidation of 65% of lindane under otherwise identical conditions. Under aerobic condition, the presence of CMC reduced the level of hydroxyl radicals generated from the nanoparticels by nearly 50%, and thus, inhibited the oxidation of the contaminants. While the particle stabilization greatly enhanced the anaerobic degradation, it did not appear to be beneficial under aerobic condition. The degradation rate was progressively enhanced as the Pd content increased from 0.05% to 0.8% of Fe, and the catalytic effect of Pd was more significant under anaerobic condition. Under anaerobic condition, lindane is degraded via dihaloelimination and dehydrohalogenation, whereas atrazine is by reductive dechlorination followed by subsequent reductive dealkylation. Under aerobic condition, reactive oxygen species and hydroxyl radicals from the iron nanoparticles are responsible for oxidizing the pesticides. Lindane is oxidized via dechlorination/dehydrohalogenation, whereas atrazine is destroyed through dealkylation of the alkylamino side chain.     

小麦秸秆预处理对厌氧消化性能的影响研究

针对小麦秸秆厌氧消化水解限速步骤,研究了酸、碱和污泥发酵消化液(以下简称消化液)预处理对小麦秸秆厌氧消化性能的影响。结果表明,酸和消化液预处理可以加速小麦秸秆水解酸化,在厌氧发酵第4天时产气中测得甲烷,早于对照和碱预处理。与对照相比,酸、消化液和碱预处理后小麦秸秆和污泥共消化体系的产气量可分别提高13.7%、12.0%和9.2%,产甲烷量可分别提高7.4%、9.5%和5.2%,但碱预处理会延滞厌氧消化产甲烷阶段。厚壁菌门(Firmicutes)是厌氧消化反应器中最主要的菌门,主要包括己酸菌属(Caproiciproducen s)、乙醇生孢产氢菌属(Hydrogenispora)、瘤胃梭菌属(Ruminiclostridium)、罗伊氏乳杆菌属(Lactobacillus)和Ruminiclostridium_1属等,其中己酸菌属和乙醇生孢产氢菌属可以作为小麦秸秆和污泥共消化的监测指标,在厌氧消化前期反应器中微生物主要为己酸菌属,而后期主要为乙醇生孢产氢菌属。     

The effect of anaerobic digestion and storage on indicator microorganisms in swine and dairy manure

The aim of this experimental study was to evaluate the influence of anaerobic digestion and storage on indicator microorganisms in swine and dairy excreta. Samples were collected every 90 days for 15 months at eight farms, four pig, and four dairy farms, four of them having a biogas plant. Moreover, to evaluate storage effects on samples, 20 l of manure and slurry taken at each farm (digested manure only in farms with a biogas plant) were stored in a controlled climatic chamber at 18 °C, for 6 months. The bacterial load and the chemical-physical characteristics of excreta were evaluated at each sampling time, stored slurry, and manure were sampled and analyzed every 2 months. A high variability of the concentration of bacteria in the different excreta types was observed during the experiment, mainly depending on the type and time of treatment. No sample revealed either the presence of Escherichia coli O157:H7 or of Salmonella, usually linked to the temporary rearing of infected animals in facilities. Anaerobic digestion and storage affected in a significant way the reduction of indicator bacteria like lactobacilli, coliforms, and streptococci. Anaerobic digestion lowered coliforms in pig slurry (? 2.80 log, P < 0.05), streptococci in dairy manure (? 2.44 log, P < 0.001) and in pig slurry (? 1.43 log, P < 0.05), and lactobacilli in pig slurry (? 3.03 log, P < 0.05). Storage lowered coliforms and the other indicators counts, in particular in fresh wastes, while clostridia did not show a reduction in concentration.     

剩余污泥热水解厌氧消化中试研究

针对糖纸厂污水活性污泥法处理后剩余污泥进行热水解厌氧消化中试研究,结果表明,热水解预处理工艺能够有效改善污泥性质,SCOD与VFA分别提高5.2和7.6倍,在厌氧消化过程中随着水力停留时间(HRT)缩短,消化罐有机负荷和比沼气产率提高,在2.5 kg VS/(m3·d)、HRT=12 d条件下达到28.1 Nm3/t。整个厌氧消化过程中无过度酸化现象发生,沼气甲烷含量稳定,平均达到60%。     

不同预处理方法对脱水污泥厌氧消化的影响

以城市污水厂脱水污泥为对象,研究不同预处理方法（低温水热、HCl、H2O2、HCl+低温水热、H2O2+低温水热、HCl+低温水热+HAc、H2O2+低温水热+HAc）对污泥可溶化率和后续厌氧消化产气的影响。实验结果表明,HCl添加量越大,pH越低;H2O2添加量越大,污泥可溶化效果越好。H2O2+低温水热+HAc可溶化效果最为显著,经预处理后溶解性化学需氧量（soluble chemical oxygen demand,SCOD）是原泥的13.4倍,溶解性碳水化合物为原泥的4.1倍。可溶化效果与预处理方式均对挥发性脂肪酸（volatile fatty acids,VFA）有影响。预处理条件为HCl+低温水热或H2O2+低温水热时,污泥自身VFA含量有较大幅度增加。生物化学甲烷势（biochemical methane potential,BMP）实验显示,甲烷产率提高与产气高峰提前呈正相关;添加HAc可有效提高微生物对污泥的代谢,有利于甲烷产率的提高。 预处理条件为H2O2+低温水热+HAc时的甲烷产率最大,比原泥甲烷产率提高了57.63%,优于已有研究成果。     

Removal of tetracyclines,sulfonamides, and quinolones by industrial-scale composting and anaerobic digestion processes

This study evaluated and compared the removal of antibiotics by industrial-scale composting and anaerobic digestion at different seasons. Twenty compounds belonged to three classes of widely used veterinary antibiotics (i.e., tetracyclines, sulfonamides, and quinolones) were investigated. Results show that of the three groups of antibiotics, tetracyclines were dominant in swine feces and poorly removed by anaerobic digestion with significant accumulation in biosolids, particularly in winter. Compared to that in winter, a much more effective removal (>?97%) by anaerobic digestion was observed for sulfonamides in summer. By contrast, quinolones were the least abundant antibiotics in swine feces and exhibited a higher removal by anaerobic digestion in winter than in summer. The overall removal of antibiotics by aerobic composting could be more than 90% in either winter or summer. Nevertheless, compost products from livestock farms in Beijing contained much higher antibiotics than commercial organic fertilizers. Thus, industrial composting standards should be strictly applied to livestock farms to further remove antibiotics and produce high quality organic fertilizer.     

餐厨垃圾的高温厌氧消化处理研究

在55℃条件下,研究了餐厨垃圾高温厌氧消化过程中pH、VFA、总磷、产气量以及COD、TS和VS的变化,结果表明：在消化过程中pH先下降后上升,总VFA浓度增大,而其中游离态VFA浓度先增大后减少。消化过程总产气量为43 211 mL,整个过程消耗TS的平均产气率为158.98 mL/g TS,COD去除率为38.76％,总磷去除率达到98.87％,底物TS和VS去除率分别31.71％和50.24％。经过厌氧消化处理,沼渣中不含对人体和许多动物有害的沙门氏菌、痢疾杆菌、大肠杆菌及粪大肠杆菌,而富含有机质、氮、磷和钾等的营养物质和芽孢杆菌、防线菌等有益菌种。     

9种抗生素对污泥高温厌氧消化的急性抑制

通过急性抑制实验方法评价了9种抗生素（2种氨基糖苷类抗生素核糖霉素、链霉素,2种大环内酯类抗生素红霉素、螺旋霉素,2种四环素类抗生素四环素、土霉素,以及林可霉素、氯霉素和头孢唑啉）在2种浓度(25 mg·L-1和50 mg·L-1)水平下对污泥高温（55 ℃）厌氧消化的急性抑制效果。结果表明,土霉素与链霉素在2种浓度水平下均未对高温厌氧消化产生急性抑制,而四环素与核糖霉素仅在50 mg·L-1水平下导致甲烷累计产量分别下降了36.13%和17.50%。头孢唑啉、林可霉素、红霉素、螺旋霉素和氯霉素在25 mg·L-1浓度水平下即表现出较强的急性抑制效果,其中25 mg·L-1的林可霉素和氯霉素暴露系统中甲烷的累计产量分别下降了29.39%和19.88%,50 mg·L-1浓度水平下进一步降低到51.27%和49.46%。而头孢唑啉、红霉素和螺旋霉素在25 mg·L-1和50 mg·L-1浓度水平下表现出相似的急性抑制效果,累计甲烷产量分别降低了43.03%～47.49%、40.60%～44.91%和54.61%～55.69%。高温厌氧消化前后挥发性有机酸的变化表明,林可霉素主要通过抑制丁酸互营氧化菌活性降低乙酸产量从而降低甲烷产量,50 mg·L-1的核糖霉素主要抑制乙酸型产甲烷古菌活性,而红霉素、螺旋霉素、氯霉素、头孢唑啉和四环素可同时抑制产甲烷古菌和丁酸互营氧化菌活性。     

不同园林废弃物对污泥和餐厨垃圾厌氧消化的影响

将甘蔗叶、小心叶薯和合欢按不同的物料配比加入到污泥和餐厨垃圾中,考察了3种园林废弃物对污泥和餐厨垃圾厌氧消化处理的影响.实验结果表明,添加小心叶薯、甘蔗叶和合欢可显著提高污泥厌氧消化的沼气总产量以及甲烷总产量.当污泥与甘蔗叶以5:3的湿质量比混合时厌氧消化效果最佳,此时沼气总产量、甲烷总产量分别为污泥对照组的22.4、37.7倍.然而,甘蔗叶对提高餐厨垃圾厌氧消化效果的作用有限,合欢对餐厨垃圾厌氧消化具有明显抑制作用,添加合欢后沼气总产量比餐厨对照组低48％.     

超声波预处理对牛粪厌氧消化的影响

以牛粪为研究对象,考察超声波预处理对牛粪厌氧消化的影响。结果表明,适宜强度的超声波预处理对牛粪厌氧消化有一定促进作用。与未经预处理牛粪相比,在100、175、250W超声波预处理下牛粪厌氧消化的最高产气速率从127.02mL/d分别提高到179.26、212.73、298.71mL/d,累计产气量从1 674.18mL分别提高到2 279.81、2 508.05、2 730.66mL,消化液达到最低pH的时间从30d分别缩短至25、15、10d;消化液最大溶解性COD从14 881mg/L分别提高到16 450、17 080、19 250mg/L,牛粪挥发性固体的生物降解率从44.7%分别提高到55.4%、57.3%、61.7%。超声波强度过大将对微生物造成破坏,降低生物反应活性,从而抑制牛粪厌氧消化。经325W超声波预处理后,牛粪厌氧消化的最高产气速率、累计产气量等参数均不及未经预处理牛粪。在未来实际应用中,应注意控制超声波强度,以达到最优预处理效果。