剩余污泥强化混凝气浮预处理煤气化废水

为解决低浑浊度煤气化含油废水混凝气浮药剂投加量大、效率低的问题,本文开展混凝剂污泥共投加提高气浮工艺除污染能力的研究.研究表明,剩余污泥的投加明显改善了混凝沉淀对油类污染物的去除,在剩余污泥投加量从0增加到1200 mg·L~(-1)时,含油量去除率由28.1%提升至44.1%.聚合氯化铝(PAC)、聚丙烯酰胺(PAM)和剩余污泥的最适宜投加量分别为150、2、1200 mg·L~(-1).A/O工艺二沉池剩余污泥强化混凝气浮效果最佳,充分气浮反应后对含油量的去除率由46%提升至84%,且气浮池油水分离区微气泡的稳定性得到明显改善.     

混凝-厌氧-好氧-气浮处理含油污水

食用植物油生产过程中排放的污水,是一种较难处理的高浓度污水。结合污水处理工程设计及工程运营情况,对该工程进行了介绍,并提出了进一步完善的建议。该工程进水（高浓度污水）主要污染物浓度为CODCr：20000～25000mg/L,BOD5：10000～15000mg/L,SS：1000～2000mg/L,经过混凝-厌氧-好氧-气浮等工序处理后,出水达到了《污水综合排放标准》（GB8978-96）中的1级排放标准（1998年1月1日后）。     

物化预处理-水解酸化-接触氧化法处理选矿废水

对某浮选厂浮选废水进行混凝沉淀+活性碳吸附预处理,然后进入生化系统,厌氧池、好氧池停留时间为10h.结果证明:进水COD为400～700mg/L,出水74～145 mg/L,去除率达75.8%以上,首次成功地将生物法应用到铅锌选矿废水的处理,若对该工艺进行适当调整,完全可以使出水达到排放或回用标准.     

内电解-混凝组合技术对合成制药废水的预处理

采用多级内电解反应器与混凝沉淀组合技术预处理典型合成制药废水.研究结果表明,组合技术对制药废水的COD去除率高于单一混凝技术和单一内电解技术;以PAM作为混凝剂的处理效果优于Ca（OH）2,在PAM投加浓度为10 m.gL-1,pH值为8的条件下,内电解与混凝沉淀组合技术对制药废水COD的去除率可达到30%.同时,组合...     

人工湿地对规模化养猪废水处理效果评价

为了提高人工湿地对养猪废水中污染物去除效果,针对复合人工湿地存在的地下水污染问题,建立与防渗膜连为一体的复合型人工湿地畜禽养殖废水系统,湿地底层铺设PE防渗膜,选用煤渣、砾石、粗砂作为湿地填料,种植美人蕉(Canna indica)、水芹菜(Oenanthe javanica)、菖蒲(Acorus calamus)、水葱(Scirpus tabernaemontani)、水葫芦(Eichhornia crassipes)湿地植物,考察复合人工湿地运行期间对养猪废水污染物的去除效率,并对温度和系统处理污染物效率的变化进行分析。结果表明:湿地植物在启动初期,对污染物的去除效率较低(NH4+-N、TP和CODCr的去除效率分别为53.6%、61.4%和41.7%),需经过一段时间形成良好的根系结构后,NH4+-N、TP和CODCr的去除能力才会稳定提高;地表流人工湿地植物在气温较高时容易枯死,在高温情况下应设置防晒措施;本研究复合人工湿地处理养猪废水污染物效率在10月达到最高,NH4+-N、TP和CODCr的去除效率分别为98.8%、62.1%和87.1%,湿地后续单元增加曝气能有效处理养猪废水中的NH4+-N;气温变化会影响人工湿地处理NH4+-N、TP和CODCr的效率,气温对NH4+-N和TP去除效果影响明显大于对CODCr去除的影响。该处理系统对养猪废水中的污染物去除效果较好,能够将废水水质提高到理想的水平,可为中小型养猪场构建人工湿地提供理论依据和技术参考。     

共凝聚气浮反应器的设计及应用

根据气泡与絮体的粘附理论和紊流气浮理论,设计了共凝聚气浮反应器的试验装置,并通过对洗衣废水进行试验,确定运行参数,考察设备性能,对设备进行改进．混凝剂与原水在输水管线中混合,混凝过程在气浮反应池中进行．溶气水释放的微气泡在微絮体的空隙内释放长大,与微絮体形成共聚复合体,在上浮过程中起到了“核”的作用,提高了絮体的上浮速度,使气浮达到了最优的去除效果．该设备采用了气液混合泵溶气,取代了传统气浮装置中的空压机、溶气罐和释放器,减小了占地面积,节省了投资费用．     

聚合氯化铝-高锰酸钾-羟基氧化铁复合强化混凝微污染原水

选用聚合氯化铝（PAC）与高锰酸钾、羟基氧化铁进行复配,强化混凝处理微污染原水。研究了复合混凝剂投加量、反应时间、进水pH、进水有机物浓度等对混凝效果的影响及絮体的沉淀性能。结果表明,PAC-KMnO4-β-FeOOH三元复合混凝剂具有显著的强化混凝效果,与相同条件下单投PAC及PAC-KMnO4二元复合混凝相比,TOC去除率分别提高了30%与20%。达到相同的浊度去除效果,三元复配混凝剂可缩短27%~50%的反应时间,减少65%~75%的沉淀时间。进水pH、有机物浓度在一定范围内变动时,PAC-KMnO4-β-FeOOH三元复合混凝剂对浊度与TOC的去除率均高于单投PAC的处理效果,三元复合混凝剂具有较强的抗水质变化冲击能力。     

铁炭-生化法处理高含盐染料废水的研究

通过对实际染料废水的处理研究，采用聚铁混凝 铁炭还原-中和混凝的预处理，可去除近50%的有机物，而且提高了废水的BOD/COD比，同时对高含盐染料废水的生化处理进行了系统研究。     

混凝气浮—生物接触氧化法处理机械加工业含乳化油废水

在混凝剂筛选、不同水质处理效果比较和生物处理实验的基础上,优化确定出混凝气浮—生物接触氧化组合处理工艺。工程实践证实:将含油乳化液与总排口水混合,混凝气浮的COD去除率可达52.4%;接触氧化的COD去除率为81%;处理出水达到国家排放标准一级指标要求。     

Fenton法-聚合氯化铝预处理高浓度乳化液废水

乳化液在机械制造、加工等过程中有广泛的应用,主要起润滑、冷却、表面清洗和防腐蚀作用。其主要成分为矿物油、表面活性剂、抑菌剂和其他有机添加剂,在使用过程中产生了高浓度、乳化严重、成分复杂且波动大的乳化液废水,随意排放会对环境造成严重污染;目前国内外对低浓度含油废水的处理进行了大量的研究工作,如各种破乳法、微生物法等,但各种处理方法都有其局限性,尤其对高浓度乳化液废水尚没有定型的处理方法。Fenton氧化法是一种高级氧化技术,在酸性条件下,H2O2被Fe2+催化分解并产生大量具有强氧化性的?OH,通过?OH氧化降解废水中的有机物,达到废水净化的目的。在处理有毒有害难生物降解有机废水方面具有较强的应用优势;聚合氯化铝(PAC)是一种应用很广的无机高分子絮凝剂,与其它水处理剂配合使用具有更好的水处理效果,通过Al(Ⅲ)盐水解-聚合产物对水中胶体颗粒或胶体污染物进行电性中和、脱稳和吸附架桥作用生成粗颗粒絮凝体去除,从而达到净化污水的目的;本文采用Fenton法-聚合氯化铝组合工艺预处理机械加工厂高浓度乳化液废水以满足后续生化处理进水要求,通过实验研究了Fenton法涉及的初始反应pH值、H2O2投加量、硫酸亚铁投加量、反应时间和后续投加聚合氯化铝涉及的反应pH值、PAC投加量及反应时间对乳化液废水预处理效果的影响。结果表明,Fenton法处理乳化液废水的最佳反应条件为:pH值为2、H2O2投加量为48 mL·L-1、质量分数为10%的FeSO4投加量为88 mL·L-1和反应时间为60 min;后续投加PAC处理的最佳反应条件为:pH值为7、质量分数为10%的PAC投加量为466 mL·L-1、反应时间为40 min;乳化液废水COD约34000 mg·L-1,经Fenton法-聚合氯化铝组合工艺处理后处理水COD小于5 000 mg·L-1,COD去除率达到87%以上,色度从浑浊的乳白色变成了清澈的无色,满足了后续生化处理对进水的水质要求。可为解决同类高浓度乳化液废水预处理提供技术参考。     

Chemical poison and regeneration of SCR catalysts for NOx removal from stationary sources

Selective catalytic reduction (SCR) of NO_x with NH₃ is an effective technique to remove NO_x from stationary sources, such as coal-fired power plant and industrial boilers. Some of elements in the fly ash deactivate the catalyst due to strong chemisorptions on the active sites. The poisons may act by simply blocking active sites or alter the adsorption behaviors of reactants and products by an electronic interaction. This review is mainly focused on the chemical poisoning on V₂O₅-based catalysts, environmental-benign catalysts and low temperature catalysts. Several common poisons including alkali/alkaline earth metals, SO₂ and heavy metals etc. are referred and their poisoning mechanisms on catalysts are discussed. The regeneration methods of poisoned catalysts and the development of poison-resistance catalysts are also compared and analyzed. Finally, future research directions in developing poisoning resistance catalysts and facile efficient regeneration methods for SCR catalysts are proposed.     

SO2-4/TiO2对SO2-C7H16-TiO2复相光化学反应的影响

研究了TiO2与SO2,C7H16复相光化学反应的光催化活性.在SO2-C7H16-O2-TiO2光催化反应过程中,TiO2表面可形成SO2-4/TiO2结构,它的存在可提高庚烷的光催化氧化速率,利用IR和XPS研究了反应过程中TiO2表面形成的SO2-4/TiO2结构.     

Cu/Cr co-stabilization mechanisms in a simulated Al2O3-Fe2O3-Cr2O3-CuO waste system

• Cu and Cr can be mostly incorporated into CuFe_xAl_yCr_2−x−yO₄ with a spinel structure. • Spinel phase is the most crucial structure for Cu and Cr co-stabilization. • Compared to Al, Fe and Cr are easier to be incorporated into the spinel structure. • ‘Waste-to-resource’ by thermal process at attainable temperatures can be achieved. Chromium slag usually contains various heavy metals, making its safe treatment difficult. Glass-ceramic sintering has been applied to resolve this issue and emerged as an effective method for metal immobilization by incorporating heavy metals into stable crystal structures. Currently, there is limited knowledge about the reaction pathways adopted by multiple heavy metals and the co-stabilization functions of the crystal structure. To study the Cu/Cr co-stabilization mechanisms during thermal treatment, a simulated system was prepared using a mixture with a molar ratio of Al₂O₃:Fe₂O₃:Cr₂O₃:CuO= 1:1:1:3. The samples were sintered at temperatures 600–1300°C followed by intensive analysis of phase constitutions and microstructure development. A spinel phase (CuFe_xAl_yCr_2−x−yO₄) started to generate at 700°C and the incorporation of Cu/Cr into the spinel largely complete at 900°C, although the spinel peak intensity continued increasing slightly at temperatures above 900°C. Fe₂O₃/Cr₂O₃ was more easily incorporated into the spinel at lower temperatures, while more Al₂O₃ was gradually incorporated into the spinel at higher temperatures. Additionally, sintered sample microstructures became more condensed and smoother with increased sintering temperature. Cu / Cr leachability substantially decreased after Cu/Cr incorporation into the spinel phase at elevated temperatures. At 600°C, the leached ratios for Cu and Cr were 6.28% and 0.65%, respectively. When sintering temperature was increased to 1300°C, the leached ratios for all metal components in the system were below 0.2%. This study proposes a sustainable method for managing Cu/Cr co-exist slag at reasonable temperatures.     

Simultaneous removal of NOx and chlorobenzene on V2O5/TiO2 granular catalyst: Kinetic study and performance prediction

• A V₂O₅/TiO₂ granular catalyst for simultaneous removal of NO and chlorobenzene. • Catalyst synthesized by vanadyl acetylacetonate showed good activity and stability. • The kinetic model was established and the synergetic activity was predicted. • Both chlorobenzene oxidation and SCR of NO follow pseudo-first-order kinetics. • The work is of much value to design of multi-pollutants emission control system. The synergetic abatement of multi-pollutants is one of the development trends of flue gas pollution control technology, which is still in the initial stage and facing many challenges. We developed a V₂O₅/TiO₂ granular catalyst and established the kinetic model for the simultaneous removal of NO and chlorobenzene (i.e., an important precursor of dioxins). The granular catalyst synthesized using vanadyl acetylacetonate precursor showed good synergistic catalytic performance and stability. Although the SCR reaction of NO and the oxidation reaction of chlorobenzene mutually inhibited, the reaction order of each reaction was not considerably affected, and the pseudo-first-order reaction kinetics was still followed. The performance prediction of this work is of much value to the understanding and reasonable design of a catalytic system for multi-pollutants (i.e., NO and dioxins) emission control.     

KMnO4/H2SO4引发制备淀粉改性絮凝剂的研究

以高锰酸钾为引发剂,制备淀粉-丙烯酰胺接枝共聚物.研究酸浓度、引发剂浓度、单体浓度、温度和加料方式对接枝反应的影响.结果表明,少量KMnO4(0.45mmol·l-1)和H2SO4(0.8mmol·l-1)可有效引发淀粉-丙烯酰胺接枝共聚反应,接枝效率达到90%以上,分子量大大提高,对高岭土的絮凝效果较好.     

大气CO2、CH4、CO高精度观测混合标气配制方法

高精度、高准确度的大气CO2、CH4、CO浓度观测需使用以干洁大气为底气的标气.标气中水汽含量及CO2的δ13C对基于光学原理的观测系统有不可忽视的影响.本研究利用自组装的混合标气配制系统,以环境大气为底气,并通过添加高浓度气体或利用吸附剂吸附,调节目标物种浓度.CO2和CO吸附效率分别达99.7%和99.8%,标气水汽含量小于3.7×10-6(物质的量分数,下同),可配制不同浓度范围的CO2、CH4、CO混合标气.在青海瓦里关全球大气本底站配制环境大气浓度范围的标气,CO2、CH4、CO实际配制浓度同目标浓度的偏差小于10×10-6、30×10-9、30×10-9,CO2中δ13C同实际大气接近.本方法配制的标气已应用于我国本底站大气CO2、CH4、CO高精度观测,符合世界气象组织/全球大气观测(WMO/GAW)质量要求.     

食蚊鱼(Gambusia afinis)cat、gapdh和gst基因的克隆及其在生态毒理学中的应用

根据Ensembl、Genbank登录的鱼类cat、gapdh和gst基因的CDS序列设计普通PCR扩增引物,寻找食蚊鱼的cat、gapdh和gst基因的c DNA片段,并根据定量引物设计要求设计出相应的SYBR Green I荧光定量RT-q PCR引物,建立了食蚊鱼cat、gapdh和gst基因的SYBR Green I荧光定量RT-q PCR方法。该方法在104~108数量级范围内有良好线性关系(R=0.999~1.000);熔解曲线显示扩增产物特异性良好,均为单一峰值;质粒标准品最高浓度与最低浓度的批内试验变异系数与批间试验变异系数均低于2%。利用该方法监测和评价环境污染物对水生生物的影响,选择了水体中常见典型药物污染物——双氯芬酸,研究其对食蚊鱼抗氧化基因表达的影响。结果表明,雌性食蚊鱼暴露在不同浓度双氯芬酸钠(0.005、0.05、0.5和5 mg·L-1)24 h后,其肝脏cat、gapdh和gst的mRNA呈现显著变化,相对于对照组,在低浓度0.005 mg·L-1时,cat与gst mRNA的表达量均有极显著上升(p0.01),而其它浓度均极显著下降(p0.01)。试验表明该方法具有快速、精确、灵敏度高的优点,可为利用该类小型鱼类的原位污染物的生物监测和生态毒理评价提供有力的技术支持。     

六铝酸盐负载CuO催化还原NO性能

采用共沉淀法制备了LaAl12O19六铝酸盐载体,采用等体积浸渍法制备了不同负载量的CuO/LaAl12O19催化剂,并对其进行了XRD、H2-TPR和BET表征,考察了催化剂对CH4选择催化还原NO的性能.结果表明,CuO的负载并未改变六铝酸盐载体的结构,Cu在载体上以Cu2+的形式存在,活性组分CuO与载体LaAl12O19之间存在协同作用;CuO/LaAl12O19催化剂对CH4选择催化还原NO表现出良好活性,所制备的催化剂均能使NO的转化率达到99%;其中负载量为1.0 wt%的CuO/LaAl12O19催化剂的活性最好,完全反应温度T99%为560℃,且在80 h稳定性试验中表现出了良好的高温活性和热稳定性.     

Separation/degradation behavior and mechanism for cationic/anionic dyes by Ag-functionalized Fe3O4-PDA core-shell adsorbents

● PDA-Fe₃O₄-Ag was made by hydrothermal and oxidation self-polymerization method. ● PDA-Fe₃O₄-Ag had great magnetic separation performance. ● PDA-Fe₃O₄-Ag had good adsorption and degradation performance for ionic dyes. ● PDA-Fe₃O₄-Ag showed NR and MO degradation potential of 91.2% and 87.5%, respectively. High-performance adsorbents have been well-studied for the removal of organic dye pollutants to promote environment remediation. In this study, an Ag nanoparticle-functionalized Fe₃O₄-PDA nanocomposite adsorbent (PDA-Fe₃O₄-Ag) was synthesized, and the adsorption/separation performance of commonly used cationic and anionic organic dyes by the PDA-Fe₃O₄-Ag adsorbent were assessed. Overall, PDA-Fe₃O₄-Ag exhibited a significantly higher adsorption capacity for cationic dyes compared to anionic dyes, the highest of which was more than 110.0 mg/g (methylene blue (MB)), which was much higher than not only the adsorption capacities of the anionic dyes in this study but also other dye adsorption capacities reported in the literature. The dye adsorption kinetics data fitted well to both the pseudo second-order kinetics model and the Langmuir isotherm model, suggesting a monolayer-chemisorption-dominated adsorption mode. Thermodynamics analysis indicated that the adsorption process was both endothermic and spontaneous. Furthermore, the PDA-Fe₃O₄-Ag adsorbent achieved high photodegradation removal rates of the dyes, especially neutral red (NR) and methyl orange (MO), which were 91.2% and 87.5%, respectively. With the addition of PDA-Fe₃O₄-Ag, the degradation rate constants of NR and MO increased from 0.08 × 10⁻² and 0 min⁻¹ to 2.11 × 10⁻² and 1.73 × 10⁻² min⁻¹, respectively. The high adsorption and photocatalytic degradation performance of the PDA-Fe₃O₄-Ag adsorbent make it an excellent candidate for removing cationic and anionic dyes from the industrial effluents.     

Fe2O3-CeO2-Bi2O3/γ-Al2O3 catalyst in the catalytic wet air oxidation (CWAO) of cationic red GTL under mild reaction conditions

Fe₂O₃-CeO₂-Bi₂O₃/γ-Al₂O₃, an environmental friendly material, was investigated. The catalyst exhibited good catalytic performance in the CWAO of cationic red GTL. The apparent activation energy for the reaction was 79 kJ·mol⁻¹. HO₂· and O₂·⁻ appeared as the main reactive species in the reaction. The Fe₂O₃-CeO₂-Bi₂O₃/γ-Al₂O₃ catalyst, a novel environmental-friendly material, was used to investigate the catalytic wet air oxidation (CWAO) of cationic red GTL under mild operating conditions in a batch reactor. The catalyst was prepared by wet impregnation, and characterized by special surface area (BET measurement), X-ray diffraction (XRD) and X-ray photoelectron spectroscopy (XPS). The Fe₂O₃-CeO₂-Bi₂O₃/γ-Al₂O₃ catalyst exhibited good catalytic activity and stability in the CWAO under atmosphere pressure. The effect of the reaction conditions (catalyst loading, degradation temperature, solution concentration and initial solution pH value) was studied. The result showed that the decolorization efficiency of cationic red GTL was improved with increasing the initial solution pH value and the degradation temperature. The apparent activation energy for the reaction was 79 kJ·mol⁻¹. Hydroperoxy radicals (HO₂·) and superoxide radicals (O₂⁻·) appeared as the main reactive species upon the CWAO of cationic red GTL.