微网动态膜生物反应器的研究进展

对微网动态膜生物反应器进行了较为全面的综述,在简要介绍动态膜过滤技术的基础上,对DMBR处理生活污水的运行处理效果、生物动态膜特性、DMBR结构改进及其应用的扩展研究等方面做了介绍,分析了目前该工艺存在的生物动态膜机理研究不透彻、运行稳定性较差、对工业废水的处理研究较少等问题,展望了该工艺的研究方向,即反应器结构的改进、生物动态膜地位与功能的解析、及应器优化控制研究等。     

几种常见离子对粉煤灰合成沸石除磷效果影响研究

研究了几种常见无机离子(SO2-4、HCO-3、NO-3、SiO2-3、Ca2 、Mg2 )对3种阳离子饱和的粉煤灰合成沸石(Ca沸石、Al沸石和Fe沸石)除磷效果的影响.结果表明,与纯水比较,NO-3和SO2-4的存在能提高沸石的磷去除率;HCO-3对沸石除磷起抑制作用;高浓度的SiO2-3显著提高溶液pH,从而促进Ca沸石的除磷,但抑制Al沸石和Fe沸石的除磷作用;Ca2 的存在能够显著提高沸石的磷去除率;Mg2 能促进Al沸石和Fe沸石除磷,但对Ca沸石除磷有一定抑制作用.     

光催化三维蜂窝陶瓷网净化室内空气的研究

先制备钛酸溶胶和掺杂Fe3 的钛酸溶胶,用溶胶-凝胶法分别将其负载于具有一定厚度的矩形蜂窝陶瓷三维网载体上,再用程序升温法煅烧.得到复合纳米TiO2光催化三维蜂窝陶瓷网.经扫描电镜(SEM)测定,三维蜂窝陶瓷网体上负载膜的厚度为300～400 nm,TiO2的粒径为15～20 nm.将光催化三维蜂窝陶瓷网置于光处理箱体内,在紫外光强、循环风量一定的条件下,对容积为72.6 m3和81.4 m3房间进行空气净化.结果表明,无论掺Fe3 与否的TiO2光催化三维蜂窝陶瓷网都有净化效果,其中以掺Fe3 的效果最好:当甲醛起始浓度为0.404 mg/m3,18 h的去除率为99.5%;当起始细菌总数为924 cfu/m3,24 h后的灭菌率为99.5%.     

1,2,4-三氯苯环境污染修复技术研究进展

综述了物理修复、化学修复、微生物修复及联合修复等几种主要的1,2,4-三氯苯(1,2,4-TCB)环境污染修复技术的研究进展。阐述了各种修复方法的反应原理、修复条件和效果,对比了各种修复方法的优缺点。提出今后的研究方向:解决物理吸附法修复1,2,4-TCB污染后的吸附剂的后续处理问题;优化化学降解1,2,4-TCB的工艺条件,避免二次污染,进行现场试验,实现工程应用;分离、培育1,2,4-TCB的优势降解菌种;深入研究联合修复技术的降解机理,实现1,2,4-TCB的高效、彻底降解。     

含镉工业污水对农田污染的防治和土地利用——生态农业工程初探

在沈阳张士灌区采用综合方法治理镉污染农田。在中度和轻度污染土壤种植水稻,控制灌溉水质(Cd~2+<2PPb,PH>7,Cl-<100ppm)或以清水灌溉,在重污染区,采用农业生态工程改良方法如农业改良(繁育水稻、玉米良种),繁育绿化苗木和草皮、种植甜高梁提取酒精。结果表明,农业生态工程方法是合理利用和改良严重镉污染农田的良好途径。     

底栖动物对富营养化水体的影响研究

通过室内试验探讨中华圆田螺营养盐释放的温度影响因子对氮磷营养盐循环、水体悬浮物以及摄入量和排泄量的影响等生态特性。研究发现,温度对中华圆田螺营养盐的释放有显著影响。TN和TDN随温度升高呈小幅度增加,TP和TDP则随温度升高呈明显增高,当温度分别由8℃升高至15℃和35℃时,TN则分别增加了5.71%和23.43%,TDN增加6.76%和17.57%;TP则增加92.60%和208.35%,TDP增加2.25%和110.17%。当温度分别由8℃升高至15℃和35℃时,NH4+-N分别增加了1.89%和26.55%,PO4--P增加了14.27%和225.96%,NO3--N则不受温度影响。另外,温度对SS的影响不明显(p>0.05),即使在8℃条件下仍有较高的去除率,为69.50%;试验各个温度下,螺对SS摄食量都大于排泄量,随着时间延长,螺对SS的摄入量有所降低,但仍高于其排泄量。由此可见,底栖软体动物对富营养化水体具有明显的净化作用,为湖泊富营养化控制提供了可供参考的依据。     

Agricultural sustainability in a sensitive environment--a case analysis of Loess Plateau in China

Loess Plateau,an arid and semi-arid region in Northwest China,is well-known for its most serious soil erosion in terms of sediment yield each year.Soil erosion,which is intensified by agricultural activities,is the major factor influencing sustainable agriculture development in this region.It reduces productivity by removing nutrients and especially reducing water availability that is essential for crop production in the area.It also brings about off-site costs by demanding more efforts for maintenance of banks and dame along Yellow River through raising the riverbed with sediment.Climate is capricious and extreme weather conditions occur frequently,which impairs normal agricultural production with erosion and also decrease of water availability.Extensive way of farming still dominates on the Loess Plateau,which canot produce satisfying economic results and needs to be improved or altered.Conventional agricultural production pattern needs to be reconsidered for husbandry has not been granted its due position.Agriculture is the backbone of economy.Poor agricultural production impedes economic development and vice versa,backward economy also influences the advancement of agriculture.Besides a large population,education status of farmers is another threshold that requires being resolved for a sustainable agriculture.Although conventional agriculture has been practiced there for more than 5000years,now it cannot meet the demand for food and fiber by the increasing population and some of its farming practices are contributing to environmental degradation directly or indirectly and can sustain no longer.Agriculture on Loess Plateau needs to find its own way of sustainability.To work toward a sustainable agriculture,chances and challenges both indwell on Loess Plateau.     

测压法测定BOD的研究与应用

对采用差压式直读测定装置测定生化需氧量(BOD)的方法进行了研究,该方法操作简单、直观性好,简化了大量烦琐操作并可连续测定BOD。通过测压法与稀释接种法(测定BOD的国家标准方法)的对比及差异性统计检验,表明这两种方法没有显著性差异。经对实际水样的分析并与标准稀释法的分析结果进行比较,该方法准确度较高。     

Characterization of odorous charge and photochemical reactivity of VOC emissions from a full-scale food waste treatment plant in China

Food waste treatment plants (FWTPs) are usually associated with odorous nuisance and health risks, which are partially caused by volatile organic compound (VOC) emissions. This study investigated the VOC emissions from a selected full-scale FWTP in China. The feedstock used in this plant was mainly collected from local restaurants. For a year, the FWTP was closely monitored on specific days in each season. Four major indoor treatment units of the plant, including the storage room, sorting/crushing room, hydrothermal hydrolysis unit, and aerobic fermentation unit, were chosen as the monitoring locations. The highest mean concentration of total VOC emissions was observed in the aerobic fermentation unit at 21,748.2-31,283.3 μg/m³, followed by the hydrothermal hydrolysis unit at 10,798.1-23,144.4 μg/m³. The detected VOC families included biogenic compounds (oxygenated compounds, hydrocarbons, terpenes, and organosulfur compounds) and abiogenic compounds (aromatic hydrocarbons and halocarbons). Oxygenated compounds, particularly alcohols, were the most abundant compounds in all samples. With the use of odor index analysis and principal components analysis, the hydrothermal hydrolysis and aerobic fermentation units were clearly distinguished from the pre-treatment units, as characterized by their higher contributions to odorous nuisance. Methanthiol was the dominant odorant in the hydrothermal hydrolysis unit, whereas aldehyde was the dominant odorant in the aerobic fermentation unit. Terpenes, specifically limonene, had the highest level of propylene equivalent concentration during the monitoring periods. This concentration can contribute to the increase in the atmospheric reactivity and ozone formation potential in the surrounding air.     

Effects of soil properties on heavy metal accumulation in flowering Chinese cabbage (Brassica campestris L. ssp. chinensis var. utilis Tsen et Lee) in Pearl River Delta, China

This study was conducted to investigate the effects of soil properties on the heavy metal accumulation in flowering Chinese cabbage (Brassica campestris L. ssp. chinensis var. utilis Tsen et Lee) at the field scale. The concentrations of cadmium (Cd), mercury (Hg), and chromium (Cr) in topsoil and vegetable samples from Nanhai district of Foshan city in the Pearl River Delta (PRD) were analyzed. The results showed that 56.5% of the soil samples exceeded the grade II of the Chinese Soil Environmental Quality Standard (GB 15618-1995) for Hg concentrations, while 8.70% and 17.4% of the vegetable samples exceeded the criteria of the Chinese Safety Qualification of Agricultural Products (GB 18406.1-2001) for Cd and Hg concentrations, respectively. The calculated bio-concentration factor (BCF; i.e., the ratio of the metal concentration in the edible parts of flowering Chinese cabbage to that in soil) values were ranked as: Cd (0.1415) > Cr (0.0061) > Hg (0.0012) (p < 0.01), which demonstrated that Cd was easier to be accumulated in the edible parts of flowering Chinese cabbage than Hg and Cr. Furthermore, the following relationships between (bio-concentration factor) BCF values (BCFs) and soil physicochemical properties were concluded from our results: i) the mean BCFs of coarse-textured soils were higher than those of fine-textured soils; ii) the BCFs decreased with increasing soil pH; iii) the soils with high organic matter(OM) and Cation exchange capacity (CEC) have low BCFs, resulting from their high sorption capacities for Cd, Hg, and Cr. The stepwise linear multiple regression analyses showed that total metal concentrations and available calcium in soils were two main factors controlling the accumulation of Cd, Hg, and Cr in the flowering Chinese cabbage.