河流水环境质量综合评价方法比较研究

提出了对河流水环境质量综合评价方法的基本要求,对水环境质量评价方法的现状进行了研究,并通过对各种方法的 比较,探讨了今后水环境质量综合评价方法的发展方向。     

气相色谱/质谱(GC/MS)联用在我国环境监测中的应用

从系统分析和有机污染分析等方面出发 ,概述了气相色谱 质谱 (GC MS)联用在我国大气、水质、土壤等环境监测中所取得的重要成果 ,例如可测定多环芳烃、硝基多环芳烃、多氯二苯并二、多氯二苯并呋喃、农药、酚类、多氯联苯、恶臭、有机酸、有机硫化合物和苯系物、卤代烃、氯苯类等挥发性化合物 ,以及多组分有机污染物。     

Technological options for the management of biosolids

BACKGROUND, AIM, AND SCOPE: Large quantities of biosolids (sewage sludge), which are produced from municipal wastewater treatment, are ever-increasing because of the commissioning of new treatment plants and continuous upgrades of the existing facilities. A large proportion of biosolids are currently landfilled. With increasing pressure from regulators and the general public, landfilling of biosolids is being phased out in many countries because of potential secondary pollution caused by leachate and the emission of methane, a potent greenhouse gas. Biosolids contain nutrients and energy that can be used beneficially. Significant efforts have been made recently to develop new technologies to manage biosolids and make useful products from them. In this paper, we provide a review of the technologies in biosolids management. MATERIALS AND METHODS: A survey of literature was conducted. RESULTS: At present, the most common beneficial use of biosolids is agricultural land application because of inherent fertilizer values found in biosolids. Expansion of land application, however, may be limited in the future because of more stringent regulatory requirements and public concern about food chain contamination in some countries. Perceived as a green energy source, the combustion of biosolids has received renewed interest. Anaerobic digestion is generally a more effective method than incineration for energy recovery, and digested biosolids are suitable for further beneficial use through land application. Although conventional incineration systems for biosolid management generally consume more energy than they produce because of the high moisture content in the biosolids, it is expected that more combustion systems, either monocombustion or cocombustion, will be built to cope with the increasing quantity of biosolids. DISCUSSION: Under the increasingly popular low-carbon economy policy, biosolids may be recognized as a renewable fuel and be eligible for 'carbon credits'. Because ash can be used to manufacture construction materials, combustion can provide a complete management for biosolids. A number of advanced thermal conversion technologies (e.g., supercritical water oxidation process and pyrolysis) are under development for biosolids management with a goal to generate useful products, such as higher quality fuels and recovery of phosphorus. With an ever-increasing demand for renewable energy, growing bioenergy crops and forests using biosolids as a fertilizer and soil amendment can not only contribute to the low-carbon economy but also maximize the nutrient and carbon value of the biosolids. CONCLUSIONS: Land application of biosolids achieves a complete reuse of its nutrients and organic carbon at a relatively low cost. Therefore, land application should become a preferred management option where there is available land, the quality of biosolids meet regulatory requirements, and it is socially acceptable. Intensive energy cropping and forest production using biosolids can help us meet the ever-increasing demand for renewable energy, which can eliminate the contamination potential for food sources, a common social concern about land application of biosolids. In recent years, increasing numbers of national and local governments have adopted more stringent regulations toward biosolid management. Under such a political climate, biosolids producers will have to develop multireuse strategies for biosolids to avoid being caught because a single route management practice might be under pressure at a short notice. Conventional incineration systems for biosolids management generally consume more energy than they produce and, although by-products may be used in manufacturing, this process cannot be regarded as a beneficial use of biosolids. However, biosolids are likely to become a source of renewable energy and produce 'carbon credits' under the increasingly popular, low-carbon economy policy. RECOMMENDATIONS AND PERSPECTIVES: To manage biosolids in a sustainable manner, there is a need for further research in the following areas: achieving a higher degree of public understanding and acceptance for the beneficial use of biosolids, developing cost-efficient and effective thermal conversions for direct energy recovery from biosolids, advancing technology for phosphorus recovery, and selecting or breeding crops for efficient biofuel production.     

Lead redistribution in a mine soil treated with three manures and incubated at two different temperatures

The study of heavy metals’ redistribution between different fractions allows to know their bioavailability and mobility in soils. Soil samples were collected from a lead mine in Hamadan provinces, NW Iran. In a factorial experiment soil was treated with cow, sheep and poultry manures (20?g?kg^?1 soil) separately and incubated near field capacity at 10°C and 37°C. An untreated soil (as control) was also incubated at the same temperatures. After 0 and 120 days, a sequential extraction scheme was used to fractionate Pb of incubated samples into soluble-exchangeable (Sol-Exch), organic matter associated (AOM), carbonates associated (ACar), and residual (Res) forms. Soil Pb in Sol-Exch and AOM fractions were increased by manure application significantly. The AOM and ACar forms of Pb were higher in soils treated with the manures and incubated in lower temperature. In contrast, the Sol-Exch and Res chemical forms of Pb were higher in the soils incubated at 37°C. These results may be related to the higher calcium carbonate dissolution and organic matter decomposition because of better biological activity in the soils incubated in higher temperature. The increase of the Res fraction (stable form) in this condition may resulted in lower toxicity and mobility in soil environment.     

Eco-friendly approach for leaching out heavy metals from sewage sludge

Sewage sludge contains rich organic matter and nutrients essential for the growth of plants but the presence of toxic heavy metals restricts its land application. To overcome this, the study aims an eco-friendly approach for leaching out heavy metals. Sewage sludge from sewage treatment plant, Chennai, India was characterised. The analysis of total heavy metal concentration was done by digesting in nitric acid and different forms were extracted by community bureau of reference sequential method. Heavy metals: As, Cd, Cr, Cr, Ni, Pb and Zn were determined using inductively coupled plasma optical emission spectrometry Perkin Elmer Optima 5300 DV. The experimental set-up for heavy metal leaching was held for five consecutive days at different concentrations of humic acid (0.1%, 0.5% and 1%) at varied pH (5–9). Results revealed that at the end of fifth day at pH 8, 1% humic acid is capable of leaching out 75.5% cadmium, 66.0% nickel, 52.0% lead, 51.2% zinc, 31.2% copper and 8.5% cadmium from sewage sludge. Statistically positive correlation (0.7088) existed between the percentage of heavy metals leached out and the sum of soluble and reducible fractions. Thus, from ecological point of view, humic acid can be used to leach out heavy metals from sewage sludge serving the need in restoration of soil fertility upon land application.     

市政污水厂脱水污泥对赤子爱胜蚓生长与繁殖的影响

在人工土壤条件下,通过添加5%、10%、15%、20%、25%、35%、50%(质量分数,以干重计)的市政污水厂脱水污泥(以下简称"污泥"),研究了添加污泥后对赤子爱胜蚓存活、生长和繁殖的影响,旨在为污泥农用对土壤生物的影响提供基础的参考数据.结果表明,随污泥掺入量增大,蚯蚓的死亡率先减小后增大,繁殖率逐渐减小;添加适量的污泥有利于蚯蚓生长,但没有显著的剂量-效应关系.蚯蚓的死亡和生长主要受重金属(尤其是Cu)的影响,繁殖能力受重金属和聚丙烯酰胺(PAM)共同影响.PAM的降解与蚯蚓的生存情况紧密相关.最终确定污泥的掺入量不宜超过20%.     

浅谈高悬浮物废水处理研究中存在的不足

结合现场实践经验,指出了目前处理高悬浮物废水存在的悬浮物浓度与有机药剂用量不成比例等矛盾.通过分析混凝理论的研究历程,总结出高浓度范围下的絮凝作用机理为包裹机理,目前该机理仅处于定性描述阶段,对其进行定量描述具有重要意义;结合动力学发展过程,了解到以悬浮物浓度为研究对象的动力学模型较多,但特别针对高悬浮物范围下的絮凝动力学方程尚无人研究.并针对高悬浮物废水的处理,提出了今后重点研究方向.     

碳酸盐岩山地土壤施用有机肥的溶蚀作用探讨

选择碳酸盐岩山地常见耕植、未耕植土层,通过概化制作为系列模拟柱试验土层,按当地正常施肥方法,向土层定量施入有机肥并浇灌及控制其它相关条件变化,再定期观测预埋土层不同深度碳酸岩石片的溶蚀量和土层其它指标的变化,作了施用有机肥的土中碳酸岩石溶蚀变化研究。结果揭示,在未耕植红黏土表层施用有机肥,大大减弱了土中碳酸岩石的溶蚀作用,且减弱程度随土深加大而降低。但对其下伏碱性岩粉层而言,施肥又引起了溶蚀量的微小增加变化;另在耕植土表层施用有机肥,对其土中碳酸岩石的溶蚀作用改变不大,且无论施肥与否溶蚀作用随土深加大又略显增大变化。而其下部红黏土中碳酸岩石的溶蚀量要远大于耕植土中的溶蚀量,并受施肥的影响较小。表明,农业施肥对未耕植土土中包被、包裹的碳酸岩石溶蚀影响较大,对下伏碱性岩粉层的层中、层下碳酸岩石的溶蚀影响较小。同时,施肥对耕植土土中、土下碳酸岩石的溶蚀影响不大。人类可采取禁令开垦较薄土层措施,来有效规避耕作施肥对土中碳酸岩石溶蚀作用的抑制,减少反石漠化的不利因素。此将为丰富碳酸盐岩山地成土演化理论和石漠化灾害的防治提供依据。     

化感物质的抑藻作用研究、应用及生态安全性评价

水体富营养化日益严重,水华频繁爆发,如何有效控制水华,治理富营养化水体是目前水环境领域的研究热点和前沿。目前湖泊藻类控制技术主要有：物理方法、化学法、生物法,但是这些方法都有其固有的缺点。利用植物化感作用抑制有害藻类生长具有廉价、生态安全等优点近年来备受关注。化感作用就是生物体产生的生物活性物质即化感物质在生物体之间传递信息并导致生物体相互作用。归纳了国内外不同生活型水生植物化感作用研究的主要成果（包括已报道的抑藻水生植物种类、已从水生植物体内和种植水中分离鉴定得到的化感物质）,以及化感物质的联合作用研究,讨论了化感物质的生态安全性。通过化感作用能有效控制引起水体富营养化的各种藻类生长,优化水生生物的组成结构。例如,水体中投放大麦秆可以增加无脊椎动物以及鱼类的数量,从而达到改善水生生态系统的目的。展望了植物化感作用用于水环境治理的发展前景。以期为利用植物化感作用控制水华的发生提供理论基础。     

犁翻与旋耕施用脱硫石膏对改良碱化土壤的效果研究

利用燃煤电厂脱硫石膏改良盐碱地对于确保国家粮食安全和生态安全,发展循环经济具有重要意义,已经引起国内外的广泛关注。选择具有典型代表性的宁夏西大滩碱化土壤,采用田间试验进行犁翻与旋耕施用脱硫石膏改良碱化土壤的效果研究。研究表明犁翻与旋耕施用脱硫石膏,对降低土壤碱化度、总碱度和pH值,提高油葵（Helianthus annuus）出苗率和产量的效果有所不同。采用旋耕较犁翻对降低土壤碱化度、总碱度和pH值,提高油葵出苗率和产量的效果较好。旋耕施用脱硫石膏较犁翻油葵出苗率提高9.4%,产量提高8.2%;犁翻后再旋耕施用脱硫石膏较犁翻与旋耕,效果更好。犁翻后再旋耕较旋耕和犁翻油葵出苗率分别提高13.6%和3.8%,产量分别提高16.2%和7.4%。旋耕施用脱硫石膏较犁翻施用有利于提高产投比,其产投比提高0.13;犁翻后再旋耕较旋耕和犁翻更有利于提高产投比,其产投比分别提高0.14和0.01。