应用投加粉末活性炭的膜生物反应器处理生活污水的研究

应用向间歇曝气的膜生物反应器内投加粉末活性炭的新工艺，进行了处理模拟生活污水的研究，将此研究结果与未投加粉末活性炭时的研究结果相比较，表明该工艺不仅可以取得更优的出水水质，而且可以从根本上减少膜阻力，维持高膜通量。     

利用聚磷菌快速内源性反硝化脱氮研究

从部分聚磷菌在缺氧状态下的反硝化吸磷现象出发，探索了利用经过厌氧释磷，菌体内含有大量PHB的聚磷菌进行快速内源性反硝化脱氮的可能性。试验结果表明：聚磷菌在厌氧段充分有效释磷后，在缺氧段初期3—5min内，就能将30—40mg／L的NO^-3；内源性反硝化脱氮去除65％—75％，达到一级排放标准。     

碳源循环单级生物脱氮技术研究

开发了一种列管式固定化细胞生物反应器，其特征在于硝化菌和反硝化菌被混合固定于中空的PVA凝胶管的管壁之中，PVA凝胶管平行置于圆柱形筒体内，构成一个类似于列管式换热器的生物脱氮反应器。需要处理的氨氮废水在固定化细胞管的外侧与圆柱形壳体的内侧间流动，而反硝化所需的碳源（乙醇水溶液）则在PVA凝胶管内循环。研究了列管式固定化细胞生物反应器进行单级生物脱氮的可行性和连续运行的效果，并证明了在非纯菌种的固定化细胞单级生物脱氮过程化细胞生物反应器进行单级生物脱氮的可行性和连续运行的效果，并证明了在非纯菌种的固定化细胞单级生物脱氮过程中，存在着NH^ 4→NO^-2→N2的短积生物脱氮。     

Micro-electrolysis technology for industrial wastewater treatment

Experiments were conducted to study the role of micro-electrolysis in removing chromaticity and COD and improving the biodegradability of wastewater from pharmaceutical.dye-printing and papermaking plants.Results showed that the use of micro-electrolysis technology could remove more than 90% of chromaticity and more than 50% of COD and greatly improved the biodegradability of pharmaceutical wastewater.Lower initial pH could be advantageous to the removal of chromaticity. A retention time of 30 minutes was recommended for the process design of micro-electrolysis.For the use of micro-electrolysis in treatment of dye-printing wastewater,the removal rates of both chromaticity and COD were increased from neutral condition to acid condition for disperse blue wastewater;more than 90% of chromaticity and more than 50% of COD could be removed in neutral condition for vital red wastewater.     

Multi-function adsorbent-photocatalyst MXene-TiO2 composites for removal of enrofloxacin antibiotic from water

MXenes, a new family of two-dimensional transition metal carbides or nitrides, have attracted tremendous attention for various applications due to their unique properties such as good electrical conductivity, hydrophilicity, and ion intercalability. In this work, Ti₃C₂ MXene, or MX, is converted to MX-TiO₂ composites using a simple and rapid microwave hydrothermal treatment in HCl/NaCl mixture solution that induces formation of fine TiO₂ particles on the MX parent structure and imparts photocatalytic activity to the resulting MX-TiO₂ composites. The composites were used for enrofloxacin (ENR), a frequently found contaminating antibiotic, removal from water. The relative amount of the MX and TiO₂ can be controlled by controlling the hydrothermal temperature resulting in composites with tunable adsorption/photocatalytic properties. NaCl addition was found to play important role as composites synthesized without NaCl could not adsorb enrofloxacin well. Adding NaCl into the hydrothermal treatment causes sodium ions to be simultaneously intercalated into the composite structure, improving ENR adsorption greatly from 1 to 6 mg ENR/g composite. It also slows down the MX to TiO₂ conversion leading to a smaller and more uniform distribution of TiO₂ particles on the structure. MX-TiO₂/NaCl composites, which have sodium intercalated in their structures, showed both higher ENR adsorption and photocatalytic activity than composites without NaCl despite the latter having higher TiO₂ content. Adsorbed ENR on the composites can be efficiently degraded by free radicals generated from the photoexcited TiO₂ particles, leading to high photocatalytic degradation efficiency. This demonstrates the synergetic effect between adsorption and photocatalytic degradation of the synthesized compounds.     

Atomic force microscopy study on the microtopography of natural organic matter and newly formed hydrous MnO2

To understand the water purification mechanism of potassium permanganate as a coagulation-aid during the preoxidation process, the microtopography of its reductive products, the newly formed hydrous manganese dioxide and the aged hydrous manganese dioxide, was investigated. The morphology of natural organic matter (NOM) adsorbed by the newly formed hydrous manganese dioxide was also compared with that of NOM alone. By using the tapping mode atomic force microscopy (AFM), the observation results show that the newly formed hydrous manganese dioxide possess a perforated sheet (with a thickness of 0–1.75 nm) as well as some spherical particle structures compared with the hydrous manganese dioxide with 2 h aging time, which demonstrated that the newly formed hydrous manganese dioxide had a large surface area and adsorption capacity. When 1 mmol/L newly formed hydrous manganese dioxide was added, the microtopography of NOM molecules shifted from a loosely dispersed pancake shape (with adsorption height of 5–8.5 nm) to a densely dispersed and uniform spherical structure. These results provide a valid proof that it is the perfect adsorption capability of the newly formed hydrous manganese dioxide that might result in the coagulation aid effect of potassium permanganate preoxidation. Translated from Environmental Science, 2006, 27(5): 945–949 [译自: 环境科学]     

膜生物反应器处理生活污水的膜污染研究

本文研究的是采用一体式膜生物反应器处理生活污水过程中膜污染问题.试验结果表明:运行初期,由于膜孔堵塞膜通量下降速率较快,但随着运行时间的延长,膜通量下降缓慢且趋于一定值,膜污染也基本保持稳定;膜生物反应器处理高效优质,出水水质不受冲击负荷的影响,膜对部分有机物的截留作用使系统对COD的去除率保持在较高水平上,但膜对总磷的去除不明显;污泥沉降性能与膜污染具有相关性,污泥沉降性能的恶化直接加剧了膜污染.     

COD负荷对MBSBBR脱氮除磷性能的影响研究

以模拟废水为处理对象,采用一套特定的MBSBBR系统,研究了COD负荷率对COD和NH4+-N去除率的影响,验证并分析了系统的SND现象。实验结果表明:COD负荷率为2.88～4.96kg/(m3·d)时,NH4+-N的去除率在70%左右,TP去除率在85%左右。系统对有机物具有良好的去除能力,可以承受较高的有机负荷率。系统中存在SND现象,反硝化菌大量存在,反硝化过程的碳源主要来自生物膜。系统的污泥产率较低,随着COD负荷率的增大而略有提高。     

桂北锰矿废弃地主要植物种类调查及土壤重金属污染评价

采用样方法和实地勘查法调查了桂北荔浦锰矿区废弃地自然定居和人工种植的植物,并且对8个区的主要植物及其土壤重金属含量进行了分类、测试。并采用污染指数评价法对矿区废弃地土壤重金属的污染程度进行了评价。结果表明,白茅(Imperata cylindrica)、马唐(Digitaria sanguinalis)、飞蓬(Erigeron acer)、苍耳(Xanthium sibiricum)、耳草(Hedyotisauricularia)对重金属有较强的耐性,而且能适应废弃地的不良环境,可作为锰矿废弃地生态恢复的先锋植物;用3种不同的背景值对废弃地土壤重金属污染程度的评价结果是一致的,除Pb外,5种重金属元素单项污染指数均大于2,表示被污染,其中以Mn、Zn、Cd污染最为严重。锰矿废弃地人工复垦采用典型的农业恢复模式,以种植果树和经济作物为主,果实中Cr、Cd的含量均超过食品卫生限量标准,因此矿山恢复的早期不宜直接种植果树和食用经济作物。以上研究结果可为锰矿废弃地的生态恢复和植被重建提供科学依据。     

生物除磷活性污泥系统微生物学研究进展

强化生物除磷工艺（enhanced biological phospho rusremoval，简称EBPR）是引起世界各国广泛关注并投入巨资研究的一种污水处理新型技术，但关于EBPR过程的微生物学知识却知之甚少，还存在一些模糊甚至错误的认识．近年来，以rRNA为基础的分子生物学技术的应用极大改变了以前对EBPR微生物群落的认识，但对其种群动态和作用机制方面的了解还远远不够．本文总结了近年来在EBPR系统微生物学研究方面的进展，并对EBPR技术的未来发展做一展望，以期推动此技术在污水处理业的应用．参40