人工湿地污水处理系统工艺设计研究

本文阐述了人工湿地污水处理系统工艺设计的主要内容及存在的若干问题，提出了开展人工湿地工艺设计研究的一些设想。人工湿地工艺设计研究包括人工湿地基质构建、植物群落构建和人工湿地构造与工程参数三个方面。目前，由于在污染物净化机理、系统水力学和污染物降解动力学等方面认识不足，制约了人工湿地工艺设计水平的提高，因此，深入研究污染物净化机理、开展人工湿地基质与植物筛选与组合研究、创建适合植物生长的人工生境、优化水力学模型和污染物降解动力学模型．将有利于提高人工湿地工艺设计水平。     

人工湿地生态系统污水净化研究新进展

人工湿地作为近20年来发展起来的一种传统的污水处理技术是一种廉价的替代方案,已越来越受到各国的普遍重视。在本文中,笔者详细介绍了人工湿地的定义、分类、基本构造类型与工艺流程及其在污水净化中的应用领域和应用前景。同时还详细论述了人工湿地的污水净化机理,并对今后研究的方向进行了展望,可为人工湿地污水净化技术的应用研究提供参考。     

人工湿地系统在垃圾渗滤液处理中的应用

介绍了人工湿地的组成和类型,人工湿地去除渗滤液中有机物、氮、磷和重金属的机制。分析了影响人工湿地处理渗滤液效率的因子,并且结合人工湿地设计和运行维护提出了相关建议。根据国内外成功的工程实例,分析了人工湿地处理垃圾渗滤液的经济优势、生态优势,展示了该处理技术广泛的应用前景,对以后的研究进行了展望。     

人工湿地污水处理系统脱氮机理研究进展

本文介绍了近年来人工湿地污水处理系统脱氮机理的研究情况,阐述了人工湿地脱氮的三种途径：植物和其它生物的吸收作用、微生物的生物转化作用及氨气的挥发作用,其中微生物的生物转化作用是人工湿地主要的脱氮方式.同时对影响人工湿地脱氮效率的主要因素：温度、pH值、氧化还原电位、溶解氧、微生物可利用有机碳与硝态氮、停留时间等都作了比较详细的介绍,为进一步开展人工湿地脱氮机理的研究和优化人工湿地污水处理系统设计提供参考.     

氮、磷在湿地基质中降解的机理研究

湿地基质被看成是人工湿地处理污水的核心部分,通过科学实验,文章分析了人工湿地运行中氮、磷在沿程方向和纵向的基质中的分布,重点研究湿地基质对于氮、磷的净化作用,有利于进一步理清湿地基质降解氮、磷的机理。     

人工湿地在青藏高原污水深度处理中的应用

人工湿地是一种非常重要的污水处理系统。文章通过采用人工湿地系统对海东市乐都区污水处理厂尾水进行深度处理,并对其处理效果进行监测,旨在探索人工湿地在青藏高原的利用前景和存在的问题。研究期为2013年7月~2014年5月,研究结果表明:(1)人工湿地对COD、BOD5和溶解氧有显著的处理效果,通过人工湿地系统处理后,COD去除率、BOD5去除率和溶解氧增加率分别为44.19%、68.20%和68.49%,三项指标均可达地表水Ⅳ类水质标准;(2)人工湿地对氨氮、总氮和总磷有显著的处理效果,去除率分别为43.78%、25.52%和33.89%,冬季三项指标的去除率显著下降,通过人工湿地系统处理后,三项指标基本可达污水排放一级A排放标准。本研究表明,人工湿地是在青藏高原污水深度处理中处理效果明显的可行技术方法,具有显著的环境效益和社会效益。     

组合人工湿地对化工园区尾水COD的去除及其模拟

采用组合人工湿地中试试验对工业园区污水厂尾水进行处理,研究了3种不同的水力负荷(10cm/d,20cm/d和25cm/d)下COD的去除,并用一级动力学模型对组合人工湿地及其各个湿地单元的COD的去除进行了模拟。结果表明组合人工湿地对COD的去除受水力负荷影响有限,去除率基本都在60%以上,系统出水COD浓度在40mg/L以下,并且夏季的去除效果最佳。对数学模拟的结果进行分析,发现一、二级潜流湿地对COD去除贡献较大,另外组合人工湿地系统对COD的去除效果也优于单个的湿地。系统最终出水中的COD模拟结果和实测值相接近,说明基于一级动力学模型的组合人工湿地数学模拟对实际运行有指导意义。     

人工湿地对污染物去除的研究现状及发展前景

人工湿地是近年兴起的高效、经济、环保型的污水处理方式。在前人研究的基础上本文对人工湿地去除非点源污染物中的总氮、总磷、总悬浮物的研究现状及设计湿地的植物和填料对去除污染物影响方面进行了概述，并对其今后研究发展的趋势作了探讨。     

人工湿地处理污水的机理与其应用前景

人工湿地法处理废水的技术是目前国际污水处理研究领域的热点,该方法利用生态系统中物质循环的原理,使用生物方法去除污染物质.本文对人工湿地处理污水的机理研究现状进行了总结,并讨论了人工湿地处理污水应用的适应性.     

复合人工湿地去除有机污染物的研究

人工湿地中不同的污染物的去除机理不同,其去污的影响因素也不同.在国内,人工湿地对氮磷去除的研究较多,对新型有机污染物的研究很少,在很多机理上还属空白.总结了近年来国内外湿地对有机污染物去除的研究进展情况以及不同湿地类型对去除率的影响.系统的分析了有关湿地植物,基质,微生物对于有机污染物的去除作用机理,提出了存在问题并对今后湿地去除有机污染物的研究进行了展望.     

人工湿地的生态休闲利用与设计

人工湿地系统除了可以起到净化污水的作用,在经过精心设计后,还可发挥与自然湿地系统同样的生态保护功能,更可为人们提供一个休闲娱乐、旅游观光、科教科研的场所,越来越多的人工湿地系统开始重视并采用一系列的设计手段以充分发挥其自然价值和社会价值。本文详细地介绍了目前人工湿地综合利用研究进展,分析了综合利用时一些潜在的问题,及其设计时应当加以考虑的注意事项和建议。     

植物在人工湿地中的作用及物种选择

本文主要阐述了植物在人工湿地中的作用和选取植物的一些原则,并分析了今后所研究的重点。植物在人工湿地中起着非常重要的作用,不但可以去除污染物质,而且具有生态美学和经济价值;选择植物应考虑植物的净化能力、适应性等因素。最后提出了植物研究需要加强的地方。     

人工湿地控制非点源污染的应用

随着点源污染的有效管理和控制，非点源污染已成为水环境污染的主要原因。人工湿地作为一种控制水环境非点源污染的有效工具，已被世界上很多国家所认可。本文首先简述了非点源污染的危害，其次对人工湿地的概念和类型进行了介绍，论述了人工湿地对非点源污染中氮、磷、重金属和农药等主要污染物的去除机理，最后对人工湿地处理系统的附属设施、水力因素、表土层以及植物收割等应用问题进行了探讨。     

Denitrification in alluvial wetlands in an urban landscape

Riparian wetlands have been shown to be effective "sinks" for nitrate N (NO3-), minimizing the downstream export of N to streams and coastal water bodies. However, the vast majority of riparian denitrification research has been in agricultural and forested watersheds, with relatively little work on riparian wetland function in urban watersheds. We investigated the variation and magnitude of denitrification in three constructed and two relict oxbow urban wetlands, and in two forested reference wetlands in the Baltimore metropolitan area. Denitrification rates in wetland sediments were measured with a 15N-enriched NO3- "push-pull" groundwater tracer method during the summer and winter of 2008. Mean denitrification rates did not differ among the wetland types and ranged from 147 +/- 29 microg N kg soil(-1) d(-1) in constructed stormwater wetlands to 100 +/- 11 microg N kg soil(-1) d(-1) in relict oxbows to 106 +/- 32 microg N kg soil(-1) d(-1) in forested reference wetlands. High denitrification rates were observed in both summer and winter, suggesting that these wetlands are sinks for NO3- year round. Comparison of denitrification rates with NO3- standing stocks in the wetland water column and stream NO3- loads indicated that mass removal of NO3- in urban wetland sediments by denitrification could be substantial. Our results suggest that urban wetlands have the potential to reduce NO3- in urban landscapes and should be considered as a means to manage N in urban watersheds.     

Use of created cattail (Typha) wetlands in mitigation strategies

In order to balance pressures for land-use development with protection of wetland resources, artificial wetlands have been constructed in an effort to replace lost ecosystems. Despite its regulatory appeal and prominent role in current mitigation strategies, it is unclear whether or not created systems actually compensate for lost wetland resources. Mitigation predictions that rely on artificial wetlands must be analyzed critically in terms of their efficacy. Destruction of wetlands due to burial by coal fly ash at a municipal landfill in Danvers, Massachusetts, USA, provided an opportunity to compare resulting growth of created cattail (Typha) marshes with natural wetland areas. Once the appropriate cattail species was identified for growth under disturbed landfill conditions, two types of artificial wetlands were constructed. The two systems differed in their hydrologic attributes: while one had a surface water flow characteristic of most cattail wetlands, the second system mimicked soil and water conditions found in naturally occurring floating cattail marshes. Comparison of plant growth measurements for two years from the artificial systems with published values for natural cattail marshes revealed similar structure and growth patterns. Experiments are now in progress to investigate the ability of created cattail marshes to remove and accumulate heavy metals from polluted landfill leachate. Research of the type reported here must be pursued aggressively in order to document the performance of artificial wetlands in terms of plant structure and wetland functions. Such research should allow us to start to evaluate whether artificial systems actually compensate for lost wetlands by performing similar functions and providing the concomitant public benefits.     

多工艺组合人工湿地在西北农村地区的发展现状及展望

介绍了人工湿地的分类和特点,发展组合人工湿地的原因及国内外近年来多工艺组合人工湿地发展现状及未来趋势,结合实际分析各个工艺的优点与不足.对多工艺组合人工湿地在我国西北农村地区的使用进行分析和展望,可运用组合人工湿地工艺弥补传统水处理工艺的不足,如光催化高级氧化法与人工湿地组合工艺可有效减少水处理时产生的二次污染和土地占...     

WETLAND DESIGN METHODS FOR RESIDENTIAL WASTEWATER TREATMENT1

ABSTRACT: Constructed wetlands have recently gained popularity as an alternative method for wastewater treatment. This paper compares two design methodologies currently used for constructed wetlands; Tennessee Valley Authority (TVA) and the Environmental Protection Agency (EPA) methods. A discussion of parameters for both methods is given and a wetland treatment system is designed for an individual residence with typical BOD5 loads and flow rates. Calculation results revealed significant discrepancies in the required constructed wetlands volume, and thus detention time, stemming from inherent differences in the design methodologies. The EPA method relies heavily on plug flow kinetics, and is therefore sensitive to changes in the reaction rate constant and media porosity. Conversely, TVA determines the surface area by sizing in accordance with a recommended hydraulic loading criterion and is affected only by the hydraulic flow rates. This study concluded that a constructed wetland is a viable option under design considerations that are not favorable for traditional on-site wastewater treatment methods. However, it is recommended that conservative values for flow and loading rates be assumed to assure complete treatment for either of the design methods.     

Substrate organic matter to improve nitrate removal in surface-flow constructed wetlands

A wetland mesocosm experiment was conducted in eastern North Carolina to determine if organic matter (OM) addition to soils used for in-stream constructed wetlands would increase NO3--N treatment. Not all soils are suitable for wetland substrate, so OM addition can provide a carbon and nutrient source to the wetland early in its development to enhance denitrification and biomass growth. Four batch studies, with initial NO3--N concentrations ranging from 30 to 120 mg L-1, were conducted in 2002 in 21 surface-flow wetland mesocosms. The results indicated that increasing the OM content of a Cape Fear loam soil from 50 g kg-1 (5% dry wt.) to 110 g kg-1 (11% dry wt.) enhanced NO3--N wetland treatment efficiency in spring and summer batch studies, but increases to 160 g kg-1 (16% dry wt.) OM did not. Wetlands constructed with dredged material from the USACE Eagle Island Confined Disposal Facility in Wilmington, NC, with initial OM of 120 g kg-1 (12% dry wt.), showed no improvement in NO3--N treatment efficiency when increased to 180 g kg-1 (18% dry wt.), but did show increased NO3--N treatment efficiency in all batch studies when increased to 220 g kg-1 (22% dry wt.). Increased OM addition and biosolids to the Cape Fear loam and dredged material blends significantly increased biomass growth in the second growing season when compared to no OM addition. Results of this research indicate that increased OM in the substrate will reduce the area required for in-stream constructed wetlands to treat drainage water in humid regions. It also serves as a demonstration of how dredged material can be used successfully in constructed wetlands, as an alternative to costly storage by the USACE.