H2O2-Fe^2＋氧化法处理重油裂解制气废水

利用H2O2-Fe^2 氧化法处理经过生化系统处理过的重油裂解制气废水，对各种影响H2O2-Fe^2 氧化法对废水COD去除的因素进行了研究，结果显示其合适的处理条件是：废水的COD浓度为197．20～334．7lmg／L、27.5％过氧化氢加量为0．75mL／L、反应初始pH值为5．0、反应时间3h、Fe^2 加量为25mg／L、30℃反应温度。经过处理后，其COD值低于150mg／L，达到国家Ⅱ级排放标准，效果良好。     

活性污泥在渗滤液循环处理中的作用

渗滤液是垃圾填埋场产生的一种含有高浓度污染物的废水，它对环境造成的污染已经引起了人们的关注。渗滤液的处理方法很多，其中渗滤液循环法以其投资小、运行费用低、能加速填埋场稳定化进程等特点而倍受关注。利用活性污泥引入微生物，是在渗滤液循环基础上提出的一种新的设想，通过实验研究结果显示：加入干污泥循环可使渗滤液的COD由最高值2275mg／L降为67lmg／L．加入湿污泥循环可使渗滤液COD由最高值2075mg／L降为82lmg／L；而单纯进行渗滤液循环只使渗滤液的COD由最高值23llmg／L下降到l386mg／L。     

絮凝-光催化处理实际染料废水的研究

采用絮凝-光催化氧化工艺成功地处理了实际染料废水;研究了COD光催化降解动力学。COD和BOD5浓度分别为2169mg／L、295mg／L的染料废水,经絮凝-光催化处理后,出水COD和BOD5分别为214mg／L、18．5mg／L,去除率分别为90．1％、93．7％。向光催化体系中加入H2O2,可促进COD与BOD5的去除。该工艺可处理高浓度染料废水。     

COD与DO对好氧颗粒污泥同步硝化反硝化脱氮的影响

COD和DO浓度对好氧颗粒污泥的同步硝化反硝化反应有明显影响．COD浓度在400～1200mg／L范围内，好氧颗粒污泥去除COD的能力均在85％以上．颗粒污泥能吸附有机物，使废水中COD浓度快速下降．COD浓度小于800mg／L，好氧颗粒污泥具有良好的脱氮能力，氮去除率最高达85．3％．在溶氧浓度为1-4mg／L条件下，颗粒污泥对COD去除率均在90％以上．不同的溶氧浓度对氮的去除率有一定影响，在溶氧浓度3mg／L时，氮去除率最高，达83％．图7参7     

改进折流式生物反应器净化洗浴废水

利用改进折流式生物反应器，研究了好氧渐变厌氧交替工艺对洗浴废水中氮、磷和有机污染物的去除效果。结果表明：洗浴废水中COD和BOD值分别从98.0-190.6mg/L和68.3-81.7mg/L下降到6-10mg/L和1-2mg/L，含氮化合物和含磷化合物的浓度则分别从13．5—25．2mg/L和9．9—13．5mg／L下降到1mg/L和0．5mg／L。在运行过程中，不需要添加甲醇，利用洗浴废水自身的有机物就能达到很好的脱氮、除磷和降解COD与BOD的效果，而且该工艺的动力消耗仅为传统活性污泥法的三分之一。     

二氧化氯催化氧化处理直接大红染料

研究了ClO2化学氧化体系和ClO2催化氧化体系。实验结果表明:单用ClO2化学氧化处理COD为3 400mg/L的直接大红染料配制废水时,最佳反应pH值为1,氧化剂ClO2经济用量为400 mg/L废水,反应时间为10 min,COD去除率可达85.9%,氧化指数(COD削减量∶ClO2投加量)=7。当ClO2与自制催化剂所组成的催化氧化体系用于对直接大红染料配制废水的处理时,最佳反应pH值为2左右,氧化剂ClO2经济用量为600 mg/L废水,反应时间为6 min,COD去除率可达96.6%,氧化指数=6。结果表明,ClO2催化氧化法是一种新型高效的处理难降解废水的技术,有着广阔的应用前景。     

膜生物反应器高度净化有机物的特性

分别采用膜生物反应器(MBR)和普通生物反应器(CSTR)对苯胺废水进行处理，结果表明MBR处理效果优于CSTR，处理水苯胺浓度接近动力学极限浓度。测定了两种反应器中微生物的最大比基质利用速率qmax分别为2．084d^-1和1．650d^-1，亲和常数Ks值分别为0．237mg／L和0．309mg／L。间歇试验证明MBR能富集培养基质亲和性高的专一性微生物。这类微生物降解速率不随基质浓度而变化，且能更彻底地降解有机物，适用于微量有机物的高度净化。     

Fenton试剂-硫酸镁深度处理酵母废水实验研究

采用Fenton试剂-硫酸镁对广东某酵母厂经厌氧、好氧、缺氧处理后的酵母废水进行深度处理。实验结果表明:采用Fenton试剂,在初始pH值为9、H2O2用量为5.55g/L、Fe2 加入量为1.41g/L、反应时间为20min的条件下,废水COD去除率达90%;继续采用硫酸镁对上清液进行处理,在调节pH为11～11.5、加入硫酸镁0.25～1.0g/L时,出水COD可降至138.0mg/L,颜色清澈。出水水质可达到《污水综合排放标准》(GB8978—1996)的二级标准。     

缺氧—SBR工艺处理焦化废水

对焦化废水进行曝气吹脱,10h氨氮去除率达73．7％,用缺氧－SBR工艺处理焦化废水,进水浓度为COD1474mg/L,NH3-N826.8mg/L时,缺氧SRT10h,SBR曝气10h,沉降2h,出水COD186mg/L,NH3-N290.5mg/L,去除率分别达到87．83％,64．9％。     

催化湿式氧化法处理对硝基酚钠废水的试验

以Mn-Ce-Zr-Cu复合型氧化物作为多相催化剂，采用催化湿式氧化法处理高浓度对硝基酚钠废水，考察了各种反应条件对废水处理效果的影响。结果表明：在温度220℃、压力2．5MPa、反应时间60min、催化剂加入量3g／L的条件下，COD去除率可达63．7％。经处理后的废水，BOD5／COD的比值由原来的0．016提高到0．33，从而为后续的生物降解创造了良好条件。     

高浓度洗毛废水生物降解的研究

根据高浓度洗毛废水的水质特性,选择、驯化出高效污泥和菌株,并对生物降解该废水时的工艺、污泥量、时间三要素进行了深入的研究．结果表明,对于物化处理彻底的废水, Ｈ／ Ｏ 工艺（ 水解／ 好氧工艺） 与好氧工艺处理差异不大;７０ ％ 左右物化效果时, Ｈ／ Ｏ 工艺处理时, Ｃ Ｏ Ｄｃｒ 去除率增加;废水在处理过程中成分变化大,后段水可用筛选优势菌的方法处理．实验室流动模型运行结果为：在原水ρ（ Ｃ Ｏ Ｄｃｒ） １８５４４ ｍｇ／ Ｌ 和设定ｔ Ｈ Ｒ（ 延滞期） 下,混凝后出水ρ（ Ｃ Ｏ Ｄｃｒ） ５３２２ ｍｇ／ Ｌ,水解池出水ρ（ Ｃ Ｏ Ｄｃｒ） ４７６３ ｍｇ／ Ｌ,好氧池出水 Ｃ Ｏ Ｄｃｒ１９９ ．９ ｍｇ／ Ｌ,总 Ｃ Ｏ Ｄｃｒ去除率为９８ ．９ ％     

Characterization of CANON reactor performance and microbial community shifts with elevated COD/N ratios under a continuous aeration mode

COD/N at low ratios (0–0.82) improved N removals of CANON. CANON performance decreased after COD/N up to 0.82. The relative abundance of AOB decreased continuously with increasing COD/N. AOB outcompeted at a high COD load led to CANON failure. The relative abundance of AnAOB decreased and increased with increasing COD/N. The effects of increasing COD/N on nitrogen removal performance and microbial structure were investigated in a SBR adopting a completely autotrophic nitrogen removal over nitrite process with a continuous aeration mode (DO at approximately 0.15–0.2 mg/L). As the COD/N increased from 0.1 to≤0.59, the nitrogen removal efficiency (NRE) increased from 88.7% to 95.5%; while at COD/N ratios of 0.59–0.82, the NRE remained at 90.7%–95.5%. As the COD/N increased from 0.82 to 1.07, the NRE decreased continuously until reaching 60.1%. Nitrosomonas sp. (AOB) and Candidatus Jettenia (anammox bacteria) were the main functional genera in the SBR. As the COD/N increased from 0.10 to 1.07, the relative abundance of Nitrosomonas decreased from 13.4% to 2.0%, while that of Candidatus Jettenia decreased from 35% to 9.9% with COD/N<0.82 then increased to 45.4% at a COD/N of 1.07. Aerobic heterotrophic bacteria outcompeted AOB at high COD loadings (650 mg/L) because of oxygen competition, which ultimately led to deteriorated nitrogen removal performance.     

Pesticide wastewater treatment using the combination of the microbial electrolysis desalination and chemical-production cell and Fenton process

• MEDCC combined with Fenton process was developed to treat real pesticide wastewater. • Pesticide removal was attributable to desalination in the MEDCC. • High COD removal was attributable to organic distributions in different chambers. The combination of the microbial electrolysis desalination and chemical-production cell (MEDCC) and Fenton process for the pesticide wastewater treatment was investigate in this study. Real wastewater with several toxic pesticides, 1633 mg/L COD, and 200 in chromaticity was used for the investigation. Results showed that desalination in the desalination chamber of MEDCC reached 78%. Organics with low molecular weights in the desalination chamber could be removed from the desalination chamber, resulting in 28% and 23% of the total COD in the acid-production and cathode chambers, respectively. The desalination in the desalination chamber and organic transfer contributed to removal of pesticides (e.g., triadimefon), which could not be removed with other methods, and of the organics with low molecular weights. The COD in the effluent of the MEDCC combined the Fenton process was much lower than that in the perixo-coagulaiton process (<150 vs. 555 mg/L). The combined method consumed much less energy and acid for the pH adjustment than that the Fenton.     

Treatment of spent wash in anaerobic mesophilic suspended growth reactor (AMSGR)

Approximately 400 KL of spent wash or vinasse per annum is generated at an average COD concentration of 100,000 mg/l, by over 250 distilleries in India. There is an urgent need to develop, assess and use ecofriendly methods for the disposal of this high strength wastewater. Therefore, an attempt was made to investigate a few aspects of anaerobic digestion of spent wash collected from a distillery. The study was carried out in a 4 L laboratory scale anaerobic mesophilic suspended growth reactor. After the successful startup, the organic loading was increased stepwise to assess the performance of the reactor. During the study period, biogas generated was recorded and the maximum gas generated was found to be 16.9 L at an Organic Loading Rate (OLR) of 38 g COD/L. A 500% increase in the Volatile Fatty Acid (VFA) concentration (2150 mg/L) was observed, when the OLR was increased from 38 to 39 g COD/L. During the souring phase the removal of COD, Total Solids (TS) and Volatile Solids (VS) were in the order of 52%, 40% and 46% respectively. The methane content in the biogas varied from 65% to 75%.     

Effects of Al3+ on pollutant removal and extracellular polymeric substances (EPS) under anaerobic,anoxic and oxic conditions

The highest removal efficiencies of COD and TN were achieved under 10 mg/L of Al³⁺. The highest TP removal efficiency occurred under 30 mg/L of Al³⁺. EPS, PS and PN concentrations increased with the addition of Al³⁺. Sludge properties significantly changed with the addition of Al³⁺. Aluminum ions produced by aluminum mining, electrolytic industry and aluminum-based coagulants can enter wastewater treatment plants and interact with activated sludge. They can subsequently contribute to the removal of suspended solids and affect activated sludge flocculation, as well as nitrogen and phosphorus removal. In this study, the effects of Al³⁺ on pollutant removal, sludge flocculation and the composition and structure of extracellular polymeric substances (EPS) were investigated under anaerobic, anoxic and oxic conditions. Results demonstrated that the highest chemical oxygen demand (COD) and total nitrogen (TN) removal efficiencies were detected for an Al³⁺ concentration of 10 mg/L. In addition, the maximal dehydrogenase activity and sludge flocculation were also observed at this level of Al³⁺. The highest removal efficiency of total phosphorus (TP) was achieved at an Al³⁺ concentration of 30 mg/L. The flocculability of sludge in the anoxic zone was consistently higher than that in the anaerobic and oxic zones. The addition of Al³⁺ promoted the secretion of EPS. Tryptophan-like fluorescence peaks were detected in each EPS layer in the absence of Al³⁺. At the Al³⁺ concentration of 10 mg/L, fulvic acid and tryptophan fluorescence peaks began to appear, while the majority of protein species and the highest microbial activity were also detected. Low Al³⁺ concentrations (<10 mg/L) could promote the removal efficiencies of COD and TN, yet excessive Al³⁺ levels (>10 mg/L) weakened microbial activity. Higher Al³⁺ concentrations (>30 mg/L) also inhibited the release of phosphorus in the anaerobic zone by reacting with PO₄^3-.     

垃圾渗滤液组合工艺处理技术

针对垃圾渗滤液氨氮浓度高、COD浓度高、难降解物质含量高的特点,研究了MAP脱氮-生物处理-混凝组合工艺,考察了不同单元的作用及影响处理效果的因素。试验结果表明,高浓度的垃圾渗滤液经该优化组合工艺处理,污染物的去除率为COD97.5%、BOD599.2%、NH4-N87.2%、E26075.3%。除NH4-N外,其余指标均达到了生活垃圾填埋污染控制标准中规定的二级排放标准值。     

一株耐盐嗜热菌Aneurinibacillus thermoaerophilus H7的分离及其油脂降解特性

针对高盐、高油餐厨垃圾高温堆肥功能菌株缺乏的问题,以大豆油为唯一碳源,通过测定生物量、脂肪酶活性和油脂降解率,从餐厨垃圾堆积处的土壤样品中分离筛选出一株嗜热油脂降解菌H7.通过形态特征、生理生化特征和16S rDNA序列分析,对筛选的菌株进行鉴定,考察其耐盐能力、油脂降解和生长特性.结果表明,菌株H7为嗜热嗜气解硫胺素...     

Effect of 2-butenal manufacture wastewater to methanogenic activity and microbial community

The inhibition ratio sharply increased with the increasing COD. The absorbance of UV-vis at 420 nm showed a linear correlation with the SMA. The molecular structure of EPS has changed when COD was 9585 mg/L. Illumina Miseq sequencing was employed to reveal the microbial composition. The synthesis of 2-butenal, which is a vital raw material for the production of sorbic acid as a food preservative, generates some toxic by-products, so it is urgent to seek better detoxification strategies for the treatment of 2-butenal manufacture wastewater. In this study, batch experiments were carried out to investigate the inhibition effect of wastewater on the methanogenic activity. To understand the wastewater toxicity to anaerobic granular sludge, variations of the specific methanogenic activity (SMA) and extracellular polymeric substance (EPS) constituents at various wastewater CODs were investigated. Ultraviolet-visible (UV-vis) spectra and Fourier transform infrared (FT-IR) spectra were employed to analyze the structure of the EPS. The results showed that the inhibitory ratio of 2-butenal manufacture wastewater was less than 8.4% on the anaerobic granular sludge when the CODs were less than 959 mg/L. However, the inhibitory ratio increased from 36.4% to 93.6% when CODs increased from 2396 mg/L to 9585 mg/L, with the SMA decreasing from 39.1 mL CH₄/(gVSS·d) to 3.2 mL CH₄/(gVSS·d). The diversity of the microbial community under various CODs was researched by Illumina 16S rRNA Miseq sequencing and the results demonstrated that Proteiniphilum、Petrimonas and Syntrophobacter were the dominant bacteria genera in all sample. Regarding archaea, Methanobacterium was the most dominated archaea genera, followed by the Methanosaeta group in all samples. Moreover, the bacterial communities had changed obviously with increasing CODs, which indicated high CODs played a negative impact on the richness and diversity of bacterial community in the sludge samples.