混凝-微气泡气浮法处理含藻废水的研究

采用日本菊池环保株式会社生产的新型TCRI-17微气泡气浮装置混凝气浮处理北京某富营养化景观水体的含藻废水,其结果表明,当混凝剂用量分别为PAC 40 mg/L和PAM 2 mg/L,混凝2 min, 气浮2 min时,SS和COD去除率分别达到98.4%和85.7%。与混凝沉降相比,可减少PAC用量1/3,且节省处理时间。由于微小气泡停留时间长,气浮效率高,且有增加水中溶解氧的作用,可促进水体的净化,具有较强的技术优势。     

用碱渣烧制白色水泥

利用电感耦合等离子体原子发射光谱 X射线衍射等测定手段,分析了碱渣的化学成分。在此基础上,以碱渣为主要原料,设计并烧制了一种以阿利尼特矿物为主要组分的白色水泥。研究结果表明,碱渣的主要矿物成分为CaCO3,所得白色水泥可在1250℃烧成,其主要矿物为阿利尼特及少量(CaO)11·(Al2O3)7·CaCl2,水泥具有快硬早强、初凝与终凝时间间隔短的特性。     

Preparation of SGO-modified nanofiltration membrane and its application in SO42 − and Cl− separation in salt treatment

The lack of fresh water in the world makes the search for an effective method to decontaminate water an urgent priority. An important step is to remove different multivalent ions in salt treatment. Nanofiltration (NF) has been used for treating water containing different kinds of salts. In this work, sulfonate group-modified graphene oxide (SGO) was prepared, and added during the interfacial polymerization (IP) reaction to prepare SGO-modifiedNF membranes (PA-SGO). The chemical composition, structure and surface properties of PA and PA-SGO membranes were characterized by FT-IR, XPS, SEM, AFM, contact angle and zeta potential measurements. Their water flux, salt rejection and anti-fouling abilities were investigated systematically. The testing results showed that the water flux of PA-SGO (0.03% SGO) was 45.85 LMH under a pressure of 0.2?MPa, and the salt rejection varied in the order of Na₂SO₄ (98.99%)?>?MgSO₄ (91.25%)?>?MgCl₂ (42.27%)?>?NaCl (21.96%). An anti-fouling experiment indicated that the PA-SGO membrane had good anti-fouling properties because of its decreased roughness and increased hydrophilicity and electronegativity. The PA-SGO membrane has good potential for use in removing salt ions from water.     

中国环境基准理论与方法学研究进展及主要科学问题

环境基准是指环境介质中的环境要素对特定保护对象不产生不良或有害效应的最大限值,是环境标准制修订的科学依据。环境基准理论与方法学一直是国际环境科学和环境保护科学研究领域的前沿,也是国家环境管理的重大科技需求。本文在总结国际和我国环境基准研究成果的基础上,较为系统地阐述了环境基准的基本概况、理论方法学及重要进展。同时,结合学科特点和环境基准科技需求,综合分析了与环境基准理论方法学密切相关的系列关键科学问题。     

Performance of a hybrid anaerobic-contact oxidation biofilm baffled reactor for the treatment of decentralized molasses wastewater

A novel hybrid anaerobic-contact oxidation biofilm baffled reactor （HAOBR） was developed to simultaneously remove nitrogenous and carbonaceous organic pollutants from decentralized molasses wastewater in the study. The study was based on the inoculation of anaerobic granule sludge in anaerobic compartments and the installation of combination filler in aerobic compartments. The performance of reactor system was studied regarding the hydraulic retention time （HRT）, microbial characteristics and the gas water ratio （GWR）. When the HRT was 24h and the GWR was 20：1, total ammonia and chemical oxygen demand （COD） of the effluent were reduced by 99% and 91.8%, respectively. The reactor performed stably for treating decentralized molasses wastewater. The good performance of the reactor can be attributed to the high resistance of COD and hydraulic shock loads. In addition, the high solid retention time of contact oxidation biofilm contributed to stable performance of the reactor.     

地下水除铁除锰技术研究进展

对地下水铁锰污染现状及危害进行了介绍,概述了地下水铁锰去除技术方法:主要包括自然氧化法、接触氧化法、生物氧化法等。重点综述了生物法除铁锰的研究进展,从滤料、微生物筛选及驯化、运行条件等方面进行强化以提高除铁除锰效率,是该研究方向的重点。     

镉在鲤鱼组织内的蓄积及对血浆指标的影响

随着工业的迅速发展,水环境中的镉污染日趋严重,镉的蓄积性强,毒性高。为了进一步研究镉在鱼类不同组织内的蓄积及其对血浆指标的影响,以鲤鱼(Cyprinus carpio)为受试生物,设置3个浓度梯度,镉浓度分别为0(对照组)、5和50μg·L-1,试验周期为30d。结果显示,随着暴露时间的延长,染毒组鲤鱼鳃、肝胰脏和肾脏中镉蓄积量与对照组相比均显著升高(p<0.05),其中肾脏蓄积量最大,其次为肝胰脏和鳃,且50 μg·L-1染毒组各组织镉蓄积量显著高于5 μg·L-1染毒组(p<0.05);30d时,5和50 μg·L-1染毒组鳃、肝胰脏和肾脏中镉蓄积量分别为对照组的12.3和43.5倍、5.1和27.3倍、11.9和70.8倍;鲤鱼肌肉中仅检测到微量镉(0.02～0.04mg·kg-1),且暴露时间和镉暴露浓度不影响肌肉中镉的蓄积量。整个试验期间,各染毒组血浆中钙和磷含量、超氧化物歧化酶(SOD)活性、丙二醛(MDA)含量和谷草转氨酶(GOT)活性与对照组相比无显著差异(p>0.05)。研究表明,不同程度的水体镉污染均能造成鲤鱼各组织(肌肉除外)内较高浓度的镉蓄积,但对血浆指标无显著影响。     

Co-present Pb(II) accelerates the oxidation of organic contaminants by permanganate: Role of Pb(III)

• Simultaneous removal of organic contaminants and Pb(II) was achieved by Mn(VII). • Pb(II) enhanced Mn(VII) oxidation performance over a wide pH range. • Pb(II) did not alter the pH-rate profile for contaminants oxidation by Mn(VII). • Mn(VII) alone cannot oxidize Pb(II) effectively at pH below 5.0. • Pb(III) plays important roles on enhancing Mn(VII) decontamination process. The permanganate (Mn(VII)) oxidation has emerged as a promising technology for the remediation and treatment of the groundwater and surface water contaminated with the organic compounds. Nonetheless, only a few studies have been conducted to explore the role of the heavy metals (especially the redox-active ones) during the Mn(VII) oxidation process. In this study, taking Pb(II) as an example, its influence on the Mn(VII) decontamination performance has been extensively investigated. It was found that, with the presence of Pb(II), Mn(VII) could degrade diclofenac (DCF), 2,4-dichlorophenol, and aniline more effectively than without. For instance, over a wide pH range of 4.5–8.0, the dosing of 10 μmol/L Pb(II) accelerated the DCF removal rate from 0.006–0.25 min⁻¹ to 0.05–0.46 min⁻¹ with a promotion factor of 1.9–9.4. Although the UV-vis spectroscopic and high resolution transmission electron microscopy analyses suggested that Mn(VII) could react with Pb(II) to produce Mn(IV) and Pb(IV) at pH 6.0–8.0, further experiments revealed that Pb(II) did not exert its enhancing effect through promoting the generation of MnO₂, as the reactivity of MnO₂ was poor under the employed pH range. At pH below 5.0, it was interesting to find that, a negligible amount of MnO₂ was formed in the Mn(VII)/Pb(II) system in the absence of contaminants, while once MnO₂ was generated in the presence of contaminants, it could catalyze the Pb(II) oxidation to Pb(IV) by Mn(VII). Collectively, by highlighting the conversion process of Pb(II) to Pb(IV) by either Mn(VII) or MnO₂, the reactive Pb(III) intermediates were proposed to account for the Pb(II) enhancement effect.     

Occurrence of pharmaceuticals in a municipal wastewater treatment plant: mass balance and removal processes

Occurrence and removal efficiencies of fifteen pharmaceuticals were investigated in a conventional municipal wastewater treatment plant in Michigan. Concentrations of these pharmaceuticals were determined in both wastewater and sludge phases by a high-performance liquid chromatograph coupled to a tandem mass spectrometer. Detailed mass balance analysis was conducted during the whole treatment process to evaluate the contributing processes for pharmaceutical removal. Among the pharmaceuticals studied, demeclocycline, sulfamerazine, erythromycin and tylosin were not detected in the wastewater treatment plant influent. Other target pharmaceuticals detected in wastewater were also found in the corresponding sludge phase. The removal efficiencies of chlortetracycline, tetracycline, sulfamerazine, acetaminophen and caffeine were >99%, while doxycycline, oxytetracycline, sulfadiazine and lincomycin exhibited relatively lower removal efficiencies (e.g., <50%). For sulfamethoxazole, the removal efficiency was approximately 90%. Carbamazepine manifested a net increase of mass, i.e. 41% more than the input from the influent. Based on the mass balance analysis, biotransformation is believed to be the predominant process responsible for the removal of pharmaceuticals (22% to 99%), whereas contribution of sorption to sludge was relatively insignificant (7%) for the investigated pharmaceuticals.     

低浓度CS2废气的光降解研究及工艺设计

利用185～253．7nm紫外光联合降解低浓度二硫化碳废气。结果表明，在一定的气体浓度、流速以及湿度下，该技术能够有效降解二硫化碳使其浓度低于人的嗅阈值，同时研究也发现，该技术对苯乙烯和甲苯二甲苯等有机废气也有同样的处理效果，具有很好的工业化应用前景。