混合碳源添加对生活污水脱氮效率的影响

为了解决生活污水处理反硝化过程因碳源不足而影响污水脱氮效率的问题,以氧化沟混合液为研究对象,将其取回后以好氧、兼氧、厌氧的顺序对其处理,处理时间以好氧:兼氧:厌氧比例为5:2:1,在兼氧处理前添加一定量的植物碳源,研究其对污水脱氮效率的影响。结果表明,添加植物碳源会提高污水的脱氮效率,其中油菜杆和小麦杆1:1比例的混合碳源添加效果最佳,最佳反硝化处理时间为8h。     

人工湿地系统植被构建方式探讨

植物是人工湿地系统的核心之一,不但有助于污水净化,还能产生一定的生态环境效益.湿地运行初期植物的生长好坏直接影响到今后植物的生长和污染物的去除效率.面对新建的人工湿地,如何快速高效的构建植被系统,是工程建设中必须面对的一个重要问题.湿地植被构建方式的改进有助于提高湿地建设效率,改善系统处理效果.本文从工程角度探讨植物种植方式、种植时间、种植密度及湿地启动对湿地植被构建的影响.     

木贼定居对铅锌尾矿砂微生物多样性及重金属迁移转化的影响

为研究根际微生物影响木贼耐受和吸附重金属的机制,为重金属污染植物-微生物协同修复提供参考,应用化学分析方法和Illumina MiSeq高通量测序技术,对木贼定居对铅锌尾矿重金属含量、土壤微生物多样性的影响进行研究。结果表明,子囊菌、未明确分类真菌和担子菌是铅锌尾矿地土壤的优势真菌。木贼定居导致散囊菌纲、座囊菌纲丰度下降,粪壳菌纲丰度增加。Alternaria,Amorphotheca,Aspergillus为尾矿裸地中主要优势真菌,Fusarium,Chaetomiaceae-Unclassified,Calcarisporiella为木贼根际土壤主要优势真菌。变形菌门、厚壁菌门、放线菌门是研究区土壤中的优势细菌类群,Lactococcus,Bacillus,Gemmatimonas,Sulfuricaulis,Dongia,Sulfurifustis,Azoarcus,Nitrospira等是尾矿地优势细菌。有机质、全氮与真菌和细菌ace,shannon指数显著相关,重金属含量与真菌和细菌ace,shannon指数显著或极显著负相关。木贼定居提高了尾矿砂中微生物的种类和多样性,有利于有机和氮素营养成分的积累和降低重金属含量;在尾矿生态修复实践中可多引入木贼等乡土草本先锋植物,同时补充有机质和氮素营养,或引入功能微生物菌剂和接种植物共生菌等,强化生态修复效果。     

农田土壤氮素渗漏淋失研究进展

对农田土壤氮素淋失的相关研究进行综述和总结是研究农业面源氮素污染的一个至关重要的前提。本文从土壤氮素渗漏淋失形态和迁移机理、氮素渗漏淋失的研究方法和影响土壤氮素渗漏淋失的因素三方面进行了详细的分析介绍,概述了近年来国内外农田氮素渗漏淋失的研究进展和研究成果,并在此基础上展望了未来氮素淋失研究工作的重点。研究结论对农田土壤的水肥管理措施及浅层地下水硝氮污染的减缓有一定的理论和借鉴意义     

有机固废好氧堆肥中氮素转化的研究现状

目前我国有机固废产量大、处理时间长,好氧堆肥是有机固废资源化利用的有效技术手段。氮素转化与损失是影响堆肥质量的关键,降低氮素损失有助于提高堆肥产品的质量。阐述了氮素转化原理,总结了厨余垃圾、剩余污泥及畜禽粪便等有机固废好氧堆肥中氮素转化的研究现状,并对控制氮素损失的研究提出了展望。     

土壤pH对东南景天修复镉污染土壤的影响研究

东南景天是一种镉和锌的超积累植物,改变土壤p H能否有效提高其吸收镉的效率,需要进一步验证。采用盆栽实验研究不同土壤p H下东南景天吸收和积累Cd的差异以及对Ca Cl2提取有效态镉的影响。结果表明,降低土壤p H值显著提高了土壤镉的有效态含量。弱酸性土壤即p H接近5.5时东南景天生物量及累积镉的量最大,土壤镉去除率也最高,达6.6%。强酸性即当p H接近4时,虽然植物地上与地下镉含量均最高,但生物量最小,植物去除率较其他处理低。研究证实降低土壤p H是提高植物提取效率的有效办法,这为进一步利用东南景天修复镉污染土壤,提高修复效率提供了科学依据。     

人工湿地植物净化生活污水研究现状与展望

随着经济的发展,人民生活水平提高,农村生活污水造成的环境污染不断加剧.成为影响水环境质量的重要因素.植物在人工湿地中具有非常重要的作用,是人工湿地生态系统中重要的组成部分.在检索相关文献的基础上,从人工湿地植物类型、常用植物、植物选择、去污机理、去污作用的影响因素等方面,对生活污水的人工湿地净化作了简要综述,并从6个方...     

土壤氮素矿化模型研究进展

土壤氮素矿化研究对从农田生态系统氮素平衡到全球变化和环境问题均具有重要意义。土壤氮素矿化模型的研究方面．目前主要还是以简单功能模型模拟和预测氮素矿化量为主,以双组分一阶动力学模型和一阶-零阶混和动力学模型拟合效果较好;对机理模型的研究还处于探索阶段。从目前的研究看,土壤氮素矿化模型研究应当集中在建立机理模型以阐明主要生态系统的氮素矿化过程。     

粒粒泡果汁饮料加工工艺

冬泡（RubusLambertianusSer．）为蔷薇科悬钩子属植物，在我国分布较广，河南省主要分布于大别山、伏牛山、桐柏山区，资源蕴藏量丰富。民间常来各泡野果食用，果实桔红鲜亮、甜酸爽口、酸感较强。冬泡含有大量糖类、有机酸、蛋白质、VC和较丰富的SOD，具有一定的营养保健作用。随着生活水平的提高，人们越来越崇尚天然绿色食品，因此，开发利用野生资源已成为人们关注的焦点。悬钩子是重要的野生果树资源，不少学者在其引种、驯化和营养分析等方面已进行了一些研究[1，2]。本文在对河南省悬约于属植物资源调查的基础上，利用冬泡果实…     

水生植物石菖蒲在人工湿地水质净化中的应用

综述了石菖蒲在人工湿地水质净化中发挥的重要作用,植物通过吸附吸收、促进微生物的硝化反硝化作用等来实现氮、磷和有机污染物等的去除.分析了植物特性、植物搭配、环境因子以及水力负荷等对石菖蒲净化水质效率的影响.归纳了石菖蒲的生态习性和人工湿地设计时需要综合考虑的因素,对今后石菖蒲在人工湿地水污染控制等领域的应用进行了展望.     

控释尿素不同施用条件下冬小麦产量和氮素利用效应

采用田间试验方法研究了控释尿素不同施用条件对冬小麦产量、氮素利用和经济效益的影响。试验共设7个处理,即CK （空白处理,不施氮肥）、100%PU10/0（普通尿素全量基施,N 240 kg＆#183;hm-2）、100%PU6/4（60%的普通尿素基施、40%的普通尿素于拔节期追施,N 240 kg＆#183;hm-2）、80%PU6/4（60%的普通尿素基施、40%的普通尿素于拔节期追施,N 192 kg＆#183;hm-2）、100%CRU（全量树脂包膜控释尿素基施,N 240 kg＆#183;hm-2）、80%CRU（80%树脂包膜控释尿素基施,N 192 kg＆#183;hm-2）和40%CRU＋40%PU（40%树脂包膜控释尿素＋40%的普通尿素基施,N 192 kg＆#183;hm-2）。结果表明,无论是产量效应还是氮素利用效应,树脂包膜控释尿素（CRU）处理总体优于普通尿素（PU）处理,尤其树脂包膜控释尿素和普通尿素配施（40%CRU＋40%PU）效果最佳,以7709 kg＆#183;hm-2的产量、36.44%的氮肥吸收利用率、15946元＆#183;hm-2的相对净收入达到处理间最高水平。该处理在减少氮素投入量的情况下,不仅促进了冬小麦增产,而且显著提高了肥料的利用率,拥有较高的产投比。因此,树脂包膜控释尿素和普通尿素的配施处理（40%CRU＋40%PU）是本试验条件下最优的氮肥处理。     

源分离黄水氮磷资源化利用研究进展

黄水(尿液)中含有较高的氮磷钾组分,具有较高的资源化回收潜力。对黄水在源头分离并资源化利用,能够提高氮磷的回收效率,同时降低污水厂的运行压力。对氮磷减排和资源化回收现状、源分离排水系统以及源分离黄水的处理技术发展现状等进行综述,为源分离黄水资源化提供技术支持,为"厕所改革"在农村地区的推广提供参考。     

Simulating interactive effects of symbiotic nitrogen fixation, carbon dioxide elevation, and climatic change on legume growth

The underlying mechanisms of interaction between the symbiotic nitrogen-fixation process and main physiological processes, such as assimilation, nutrient allocation, and structural growth, as well as effects of nitrogen fixation on plant responses to global change, are important and still open to more investigation. Appropriate models have not been adequately developed. A dynamic ecophysiological model was developed in this study for a legume plant [Glycine max (L.) Merr.] growing in northern China. The model synthesized symbiotic nitrogen fixation and the main physiological processes under variable atmospheric CO2 concentration and climatic conditions, and emphasized the interactive effects of these processes on seasonal biomass dynamics of the plant. Experimental measurements of ecophysiological quantities obtained in a CO2 enrichment experiment on soybean plants, were used to parameterize and validate the model. The results indicated that the model simulated the experiments with reasonable accuracy. The R2 values between simulations and observations are 0.94, 0.95, and 0.86 for total biomass, green biomass, and nodule biomass, respectively. The simulations for various combinations of atmospheric CO2 concentration, precipitation, and temperature, with or without nitrogen fixation, showed that increasing atmospheric CO2 concentration, precipitation, and efficiency of nitrogen fixation all have positive effects on biomass accumulation. On the other hand, an increased temperature induced lower rates of biomass accumulation under semi-arid conditions. In general, factors with positive effects on plant growth tended to promote each other in the simulation range, except the relationship between CO2 concentration and climatic factors. Because of the enhanced water use efficiency with a higher CO2 concentration, more significant effects of CO2 concentration were associated with a worse (dryer and warmer in this study) climate.     

Growth of alfalfa in sludge-amended soils and inoculated with rhizobia produced in sludge

The efficiency of rhizobial inoculants produced in wastewater sludge used as a growth medium and as a carrier was compared with that of inoculants produced in yeast mannitol broth (YMB) medium and by using peat as a carrier. Alfalfa (Medicago sativa L.) plants were inoculated with solid and liquid Sinorhizobium meliloti inoculants and grown in pots containing two soil types (Kamouraska clay soil and Saint-André sandy soil). The effect of various levels of sludge amendment (60 and 120 kg N/ha) and nitrogen fertilizer (60 kg N/ ha) was also studied. The sludge-based inoculants showed the same symbiotic efficiency (nodulation and plant yield) as YMB-based inoculants. The inoculation increased the nodulation indexes from 4-6 to 8-12, and the rhizobial number from 10(3) (uninoculated soils) to 10(6)-10(7) cells/g in inoculated soils. However, the shoot dry weights and the nitrogen contents were not increased significantly by the inoculation. Applying sludge as an amendment enhanced the rhizobial number in soils from 10(3) to 10(4) cells/g and improved significantly the plant growth (shoot dry weights and nitrogen contents). This improvement increased with sludge rate and with the cut (three cuts). Compared with sludge, N fertilizer gave lower plant yields. The nodulation was not affected by sludge and N-fertilizer application. The texture and physico-chemical properties of soil were found to affect the yield and nitrogen content of the plants. In this study, macroelements and heavy metals were at acceptable levels and were not considered to be negative factors.     

NO70燃烧系统在燃煤锅炉脱硝中的应用

介绍了NO70燃烧系统的特点以及计算机流体力学模拟原理。分析了使用NO70燃烧系统技术对旺隆电厂的2×100MW四角切圆燃煤锅炉进行改造,有效降低氮氧化物排放量并提高机组效率的案例。     

A Sensitivity Analysis of Nitrogen Losses from Dairy Farms

International attention has focused on agricultural production systems as non-point sources of pollution affecting the quality of streams, estuaries and ground water resources. The objective of the current study was to develop a model of nitrogen management on the dairy farm, and to perform sensitivity analyses in order to determine the relative importance of manipulating herd nutrition, manure management and crop selection in reducing nitrogen (N) losses from the farm. The importance of the method of N input to the farm (purchased feed, legume fixation, inorganic fertilizer, imported manure) was investigated, and the potential to reduce N losses from dairy farms was evaluated. Nitrogen balance equations were derived, and related efficiency coefficients were set to reference values representing common management practices. Total farm N efficiency (animal product N per N input), and N losses per product N were determined for different situations by solving the set of simultaneous equations. Improvements in animal diet and management that increase the conversion of feed N to animal product by 50% would increase total farm N efficiency by 48% and reduce N losses per product by 36 to 40%. In contrast, reducing losses from manure collection, storage and application to improve the percentage of manure N that becomes available in soil by 100% would only improve total farm N efficiency by 13% and reduce total N losses by 14%. Selecting crops and management that can use soil nutrients 50% more efficiently would improve total farm efficiency by up to 59% and reduce N losses by up to 41% depending on the predominant nitrogen sources to the farm. Legume production would reduce N losses per product compared with non-legumes. There was more than a five fold difference in N losses per animal product N between the most extreme scenarios suggesting considerable opportunity to reduce N losses from dairy farms.     

Renovation of food-processing wastewater by a Riparian wetland

Treated wastewater from a food-processing plant, together with intermittent outflow from a hypereutrophic pond, were discharged over a 20-year period to a cattail-dominated wetland and hence to a small stream. Organics and nutriet levels in the effluent were comparable to levels in domestic wastewater. Fifteen variables were monitored upstream and downstream from the plant over 18 months. Means for most variables were slightly higher downstream, but differences between stations were not statistically significant. Wetland processing of nitrogen was markedly affected by a change from drought to flood conditions. After accounting for dilution, the overall effect of the wetland on the effluent was to reduce biological oxygen demand 43.7%, ammonia N 46.3%, nitrate/nitrite N 17.4%, and conductivity 15.6%. However, total suspended solids were increased 41.4%, total organic nitrogen 28.8%, and total phosphorus 24.7%. It was concluded that the wetland effectively renovated the effluent but the removal efficiency would be improved if the effluent were pretreated to reduce phosphorus and dispersed to increase residence time in the wetland.     

油田作业区生活污水处理设计与运行

倒置A2/O悬浮填料生物膜处理工艺,能有效解决生物脱氮除磷工艺中的泥龄矛盾。其工艺简单、运行低耗、处理高效、抗冲击能力强的特点在宣汉采气作业区的生活污水处理工程中得以应用,适合油田作业区生活污水的处理。在来水波动较大时,出水也可达到《城镇污水处理厂污染物排放标准》(GB18918-2002)一级B标准。     

Modeling sediment and nitrogen export from a rural watershed in eastern Canada using the soil and water assessment tool

Watershed simulation models can be used to assess agricultural nonpoint-source pollution and for environmental planning and improvement projects. However, before application of any process-based watershed model, the model performance and reliability must be tested with measured data. The Soil and Water Assessment Tool version 2005 (SWAT2005) was used to model sediment and nitrogen loads from the Thomas Brook Watershed, which drains a 7.84 km rural landscape in the Annapolis Valley of Nova Scotia, Canada. The Thomas Brook SWAT model was comprised of 28 subbasins and 265 hydrologic response units, most of them containing agricultural land use, which is the main nonpoint nitrogen source in the watershed. Crop rotation schedules were incorporated into the model using field data collected within Agriculture and Agri-Food Canada's Watershed Evaluation of Beneficial Management Practices program. Model calibration (2004-2006) and validation (2007-2008) were performed on a monthly basis using continuous stream flow, sediment, and nitrogen export measurements. Model performance was evaluated using the coefficient of determination, Nash-Sutcliff efficiency (NSE), and percent bias (PBIAS) statistics. Study results show that the model performance was satisfactory (NSE > 0.4; > 0.5) for stream flow, sediment, nitrate-nitrogen, and total nitrogen simulations. Annual corn, barley, and wheat yields were also simulated well, with PBIAS values ranging from 0.3 to 7.2%. This evaluation of SWAT demonstrated that the model has the potential to be used as a decision support tool for agricultural watershed management in Nova Scotia.     

丛枝菌根真菌对鸢尾的促进作用研究

为高效利用水陆两栖植物鸢尾修复污染水体,本研究通过测定不同的丛枝菌根真菌（AMF）与鸢尾构建共生体系的生长指标、土壤理化性质及植物光合作用指标,探讨不同AMF对水生植物鸢尾的促进作用。结果表明：AMF对鸢尾的促进作用主要体现在地上及地下两部分,其中地下部分通过利用其庞大的菌丝网络吸收土壤中的营养物质,进而促进了鸢尾的生长,其中对比无菌剂侵染的空白植物,摩西球囊霉作用的鸢尾对氮元素的吸收率提高71.75％,磷元素的吸收率提高8.36％,而根内球囊霉作用的鸢尾对氮元素的吸收率提高42.55％,磷元素的吸收率提高9.5％;而地上部分则是通过加强叶片气孔导度的开启来调控植物净光合速率与蒸腾速率之间的平衡,进而提高了鸢尾的最优水资源利用率,加快植物的新陈代谢,最终促进植物的生长发育。其中对于鸢尾光合作用的调节摩西球囊霉的促进效果显著好于（P＜0.05）根内球囊霉。