红萍净化水产养殖水体的研究

利用红萍(Azolla)对富营养化水产养殖水体进行净化研究。结果表明，红萍能显著增加水体中的DO，增氧幅度随流量在16.88%～70.46%之间变化，随着养殖水体流经的层数增多或者处理的时间延长，红萍对水体的增氧量加大，水中DO最终趋向一个常数值K；同时，红萍对水体中的NH₃-N和TP都有明显的去除效果，NH₃-N去除率随流量在9.86%～38.90%间波动，TP的去除率则随流量的变化在5.80%～38.43%之间波动。可见，红萍是净化水质的良好材料，能有效改善水产养殖水环境。利用红萍净化水体将为解决高密度集约化水产养殖的瓶颈提供新途径，实现水产养殖用水的封闭循环利用。     

生物滴滤器处理味精厂挥发性恶臭废气的试验研究

报道了采用以沸石为填料的生物滴滤器净化处理味精厂内挥发性恶臭废气的试验结果。在一定的试验条件下,当高强度恶臭废气的进气量<3.0m3/h时,系统除臭效果显著,这为净化以味精厂内恶臭废气为代表的多组分复杂气体提供了切实可行的新技术,具有很好的市场应用前景。此外,研究表明,在净化氨氮臭气取得良好效果的生物膜基础之上,加入特定菌液能较快地培养出适宜处理味精厂内恶臭废气的微生物种群,且能获得满意的净化效果。     

Restoration of hyper-eutrophic water with a modularized and air adjustable constructed submerged plant bed

A modularized and air adjustable constructed submerged plant bed (CSPB) which can be used to restore the eutrophic water is introduced in this paper. This plant bed helps hydrophyte grow under poor conditions such as frequently changed water depth, impaired water transparency, algae bloom and substantial duckweed in summer, which are not naturally suitable for growing hydrophyte. This pilot study in Waihuan River of Tianjin, China, revealed that reduction of Chemical Oxygen Demand (COD), Total Nitrogen (TN) and Total Phosphorus (TP) by the use of CSPB could be reached 30%–35%, 35%–40%, 30%–40% respectively in the growing season (from March to October) and 5%–10%, 5%–15%, 7%–20% respectively in the winter (from November to February) when the detention time was 6 d. The relationships between the concentration of COD, TN, TP and the detention time fit the first-order kinetic equation well and the coefficients of determination (R²) were all above 0.9. The attenuation coefficients k of the kinetic equation were a function of the water temperature. When the water temperature was quite low or quite high, k was not significantly changed with increasing or decreasing water temperature. While when the temperature was in a moderate range, an increase or decrease of water temperature would lead to a rapid increase or decrease in k.     

危险废弃物焚烧处置预处理及烟气净化工艺设计

危险废弃物因其对人类健康、生态环境的严重危害性和破坏性而需特殊处置。以某市危险废弃物焚烧处置工程为例,通过对其预处理系统及烟气净化系统的组成、工程原理、工艺流程等的分析论证,探讨一种危险废物焚烧处置预处理系统及烟气净化系统工艺设计的工程原理和性能特点,为今后在工程实际中的运用提供参考。     

旁路离线河流净化器技术与系统在温榆河修复中的应用研究

基于自然的修复理念,本研究开发了"旁路离线河流净化器技术与系统",并以温榆河支流龙道河为研究对象,设计并建设了罗马东湖"塘-湿地系统"和龙道河拟自然河道工程.结果表明,该技术与系统可明显改善水质和生物生境,COD、氨氮和总氮平均浓度由（71.86±14.94）、（10.70±1.20）、（16.14±1.37）mg·L^-1降低到（47.59±6.13）、（1.17±0.27）、（3.65±1.73）mg·L^-1,平均削减率分别为31.8%、89.5%和77.4%,氨氮由劣Ⅴ类提升至Ⅳ类标准.龙道河生境质量评分由"一般"等级（94分）提升至"好"等级（151分）.该技术与系统具有不改变干流河道原有状态、不影响干流防洪、水质净化和生态恢复效果好等优点,适于支流丰富、排水灌渠密集或坑塘发达的污染河流生态治理与生态修复.     

Advanced purification and comprehensive utilization of yellow phosphorous off gas

Yellow phosphorous is an important raw material in the chemical industry. However, during the production of yellow phosphorous, high concentrations of carbon monoxide and other impurities are released. Without appropriate purification and removal, this off gas has potential to cause severe pollution problems once released. Purified yellow phosphorous off gas can be beneficially reused as a raw material in chemical production for synthesis of high value-added chemical reagents. In this paper, the significance of purification and reutilization of yellow phosphorous off gas are explored. The principles, processes, and main characteristics of the technologies for purification and reuse of yellow phosphorus off gas (including technical measurements of impurity reduction, relevant engineering cases, and public acceptance of the technologies) are summarized. In view of the existing problems and scientific development requirements, this paper proposes several recommendations for green production based on the concept of recycle economics. We conclude that advanced purification and comprehensive reutilization can be an effective solution for heavy pollution resulting from yellow phosphorous off gassing.     

UV185+254nm辐照下MnOx-TiO2分解甲醛与臭氧的机理

为提高185nm真空紫外光下甲醛与副产物臭氧的分解效率,以MnOx-TiO2复合催化剂取代TiO2光催化剂,发现甲醛与臭氧的转化率分别从44.7%和38.7%提高到77.5%和96.8%.研究比较了真空紫外光下和暗态下(加臭氧)甲醛与臭氧在MnOx-TiO2催化剂上的分解性能,及UV254nm下光催化分解甲醛的效率.结果表明,真空紫外光下气相活性氧物种的氧化与MnOx表面的臭氧催化氧化过程是甲醛分解的主要途径,而MnOx-TiO2上光催化氧化甲醛效率很低;副产物臭氧主要于MnOx表面活性位上由热催化分解.用真空紫外光辐照MnOx-TiO2催化剂,可提高MnOx催化分解臭氧的稳定性.     

植物根系分泌物研究方法评述

根系分泌物是植物与土壤微环境进行物质、能量和信息交流的重要媒介,对根系分泌物数量、种类的研究是植物营养、化感作用、环境修复等研究领域的重要内容。目前,根系分泌物研究中应用的收集方法主要有溶液培收集、土培收集、基质培收集和连续性根系分泌物收集系统等;分离纯化方法主要有树脂法、衍生化与萃取法、层析法和分子膜与超速离心法;检测方法有生物活性测定方法和仪器分析方法。文章结合实例综合论述了这些根系分泌物收集、分离纯化以及测定的方法,为研究者找到合适的根系分泌物研究方法提供参考。     

不同空间配置的湿地植物群落对生活污水的净化作用研究

植物是湿地生态系统的重要组分,湿地湖滨植物群落物种组成和空间格局对湿地水体净化功能具有重要作用。选择茭草（Zizania caduciflora）、野菱（Trapa incisa）、金鱼藻（Ceratophyllum demersum）和蓖齿眼子菜（Potamogeton pectinatus）等4种云南高原湿地常见湖滨带植物物种,以不同配置方式分别构建4种不同植物群落：茭草-金鱼藻-金鱼藻（Z-C-C）、茭草-野菱-金鱼藻（Z-T-C）、茭草-蓖齿眼子菜-蓖齿眼子菜（Z-P-P）、和茭草-蓖齿眼子菜-金鱼藻（Z-P-C）,对不同植物群落净化污水的效果进行对比研究。结果表明：4种不同植物群落人工湿地对生活污水净化效果不同,经过Z-C-C群落处理后水体的COD降低率为（50.56±1.98）%,显著低于Z-T-C群落（69.66±4.15）%、Z-P-P群落（64.29±1.05）%,Z-P-C群落（66.67±1.13）%,（P〈0.05）;经过Z-T-C群落处理后水体TN降低率为（24.69±4.64）%,显著低于Z-C-C群落（53.29±0.71）%、Z-P-P群落（53.36±2.04）%、Z-P-C群落（54.44±0.29）%,（P〈0.05）;各群落对NH4＋-N去除率有显著差异（P〈0.05）,分别为（71.77±0.37）%,（67.22±0.53）%,（69.22±0.13）%,（80.85±0.31）%。研究表明：3种植物配置模式对生活污水的净化效果比2种植物配置模式的好;适当增加沉水植物的配置比例,可提高人工湿地对氮的去除效果;根系发达的植物具有更强的净化效果。     

微囊藻毒素RR的制备及鉴定

以野外收集的水华蓝藻为原料,建立了以75%甲醇溶液提取、快速色谱和半制备色谱分离为主要步骤的微囊藻毒素分离纯化方法,并用HPLC、分光光度计和电喷雾质谱对所得毒素的纯度和结构进行了鉴定.结果表明,所得毒素为MCRR,纯度大于95%,其紫外吸收光谱在239nm处有特征吸收,分子组成为环(Ala-Arg-MeAsp-Arg-Adda-Glu-Mdha),分子量为1037.