人工湿地技术在农村生活污水综合治理中的应用探讨

农村生活污水具有浓度低、成分复杂、生化性高的特点,以豫南某村人工湿地工程为例,介绍人工湿地组合工艺处理农村生活污水,并对污染负荷、湿地床结构、基质材料及植被选择、水力条件等设计参数进行分析。结果表明,人工湿地系统能够有效处理农村生活污水,操作管理简单,在我国农村具有很强的推广意义。     

人工湿地-氧化塘工艺组合对氮和磷去除效果研究

本文在小试规模上，研究了下行流湿地、推流床湿地、氧化塘和兼性塘四种处理单元的四种工艺组合对氮、磷的去除效果，研究结果表明：下行流湿地 氧化塘工艺组合具有较好的充氧效果，推流床湿地后置也可以提高出水的溶解氧。四种工艺组合对离子和TP、IP的去除无显著差异。人工湿地中硝化作用的发生有利于NH^ 4f-N的去除，增加氧化塘可以提高系统的硝化能力，但同时也会增加出水中的N0^-3-N浓度。     

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。     

污水的人工湿地系统处理技术

本文通过了人工湿地系统处理技术及其发展、应用的综述介绍，并以深圳白泥坑人工湿地处理系统工程与二级生化污水处理厂相比较。结果表明，用人工湿地系统处理污水具有投资少，耗能低，运行简便等优点，提出研究、推广应用湿地系统技术处理污水的建议，可供环境保护科研及管理人员参考。     

潜流人工湿地在城镇污水处理中的应用

本文介绍了潜流人工湿地的特点,着重分析了现有潜流人工湿地处理系统存在的问题,并提出了解决方法.特别指出免淤塞型潜流人工湿地适合城镇水污染治理,并具有建设和运行费用低、管理维护简单、处理效率高和出水水质稳定的优势.     

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。     

人工湿地系统植物床内CODcr动态变化规律探讨

人工湿地处理污水系统植物床内各监测点的上、下层COD     

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.     

7B04铝合金在NaCl沉积与SO_2环境下的大气腐蚀行为

采用增重法、扫描电镜(SEM)、能谱分析(EDS)和X射线衍射仪(XRD)研究NaCl沉积对7B04铝合金大气腐蚀行为的影响,并对SO_2和NaCl协同作用进行了探讨。结果表明,25℃、95%RH条件下,7B04铝合金表面沉积NaCl在含有与未含有SO_2的环境中的腐蚀增重随时间变化均呈递增趋势并符合指数衰减规律,后期腐蚀减缓;NaCl和SO_2共存时,NaCl沉积在腐蚀初期作用比较明显,但随着腐蚀时间的延长,Cl-作用不断减弱,SO_2的作用则变强;NaCl和SO_2同时存在时,引起的腐蚀大于二者单独存在时引起的腐蚀之和,即NaCl与SO_2共存对7B04铝合金的大气腐蚀具有一定协同效应。     

Identification and characterization of extracted microplastics from agricultural soil near industrial area: FTIR and X-ray diffraction method

Microplastics have been found in large quantities in agricultural soil and now become a major global issue. Different types of microplastic have adverse effects on agricultural soil. The most widely used method for the extraction of microplastics in agricultural soil is the density floatation method by using saturated NaCl solution. This method includes the pre-digestion of soil samples with H₂O₂ to remove all the organic matter present in the soil. Different types of microplastic particles were extracted and identified by using ATR-FTIR viz polypropylene, polybutylene tetrapthalate, polyethylene, polystyrene, and polyethylene tetrapthalate. The crystalline nature of extracted microplastic was checked by employing XRD analytical technique. Floatation with higher density saturated sodium chloride (NaCl) solution recovered approximately 80% MPs from soil. Floatation methods were found to be effective for extracting microplastics from soils.     

Assessment of different carbon and salinity level on growth kinetics,lipid, and starch composition of Chlorella vulgaris SAG 211-12

ABSTRACT

The quality of microalgal biofuel depends on the fatty acid (FA) distribution. A high ratio of saturated fatty acids (SFAs) favors better biofuel characteristics. Palmitic acid (C16:0) and stearic acid (C18:0) are essential FAs for required biodiesel quality. In this study, combined effects of growth medium concentrations of NaCl, glucose and glycerol on cell composition and FA profile of the Chlorella vulgaris SAG 211–12 were investigated. A central composite design (CCD) based design of experiments (DoE) was used for experimental setup. According to experimental results, the maximum mass fraction for palmitic acid (C16:0), 40.67% of total fatty acids, was obtained in the medium supplemented with 0.9% (w/v) NaCl, 0.3% (w/v) glucose, and 0.3% (w/v) glycerol, whereas stearic acid (C18:0) percentage reached the highest value of 22.16% of total fatty acids in the presence of 2.5% NaCl, 0.6% glucose, and 0.6% glycerol. According to the same set of designed experiments, best starch content was found as 22.08% of dry cell weight in a medium containing 2.0% NaCl, 0.3% glucose, and 0.3% glycerol. C16:0 mass fraction as a function of three medium ingredient concentrations was modeled using a Kriging model. Optimum concentrations of NaCl, glucose and glycerol to reach maximum C16:0 fraction were predicted as 0.5, 1, and 1%, respectively.     

氮气搅拌下高硫铝土矿电解脱硫研究

采用氮气搅拌的方法,强化高硫铝土矿电解脱硫过程,考察了电解液配比、电流密度、气流速度等因素对脱硫率的影响。研究表明：脱硫率随电解液中NaCl含量增加而增加;电解脱硫率随着NaOH浓度和电流密度先升高后下降;增加气体流速能够显著提高电解脱硫率。基于电解脱硫特点,提出了铝土矿电解脱硫工艺与现有氧化铝生产的衔接方式。     

Sorption of cadmium and zinc from aqueous solutions by zeolite 4A, zeolite 13X and bentonite

The sorption and desorption of cadmium and zinc on zeolite 4A, zeolite 13X and bentonite has been studied using batch sorption studies. Parameters such as equilibrium time, effect of pH and sorbent dose were studied. The sorbents exhibited good sorption potential for cadmium and zinc with a peak value at pH 6.0 and 6.5, respectively. The sorption followed the Freundlich sorption model. More than 70% sorption occurred within 20 min and equilibrium was attained at around 90 min for the three sorbents. The metals sorption by zeolite 4A was higher than that by zeolite 13X and bentonite. The desorption studies were carried out using NaCl solution and the effect of NaCl concentration on desorption was also studied. Maximum desorption of 76% for cadmium and 80% for zinc occurred with 10% NaCl.     

铬酸钾和亚硝酸钠复合阻锈性能研究

在10%(wt)的氯化钠溶液中对不同浓度的铬酸钾、亚硝酸钠及其复配阻锈剂进行阻锈实验,采取失重法考察它对钢筋的阻锈性能。结果表明,铬酸钾的阻锈性能优于亚硝酸钠,主要是由于铬酸根离子对原电池阴阳两极反应的抑制作用较强;缓蚀剂浓度越高,缓蚀效果越好。两种缓蚀剂混合使用的效果比单独使用效果更好,这主要是它们能产生协同效应,降低阴极和阳极的活性,在钢筋上产生持续的保护膜。     

Adsorption of cadmium, copper, nickel, and zinc to a poly(tetrafluorethene) porous soil solution sampler

Suction cups made of poly(tetrafluorethene) (PTFE) are widely used for sampling of soil solution. A brand (Prenart) of PTFE cups was tested for adsorption of Cd, Cu, Ni, and Zn at low concentrations under different conditions. In a laboratory experiment adsorption from a 10 microg L(-1) heavy metal solution with a 0.01 M NaCl background electrolyte was investigated at pH 3.6, 4.5, and 5.8 by pumping the solutions through the cups. The effect of three different ionic compositions was also investigated using 0.01 M CaCl2, 0.01 M NaCl, and no background electrolyte at pH 4.5. In 0.01 M NaCl electrolyte at pH 5.8 the cups acted as effective filters. At pH 3.6 after 300 mL of solution had passed through the cup, equivalence between the Cd and Ni concentrations in influent and effluent was found. No equivalence between effluent and influent concentrations was found for Zn and Cu at pH 4.5 and 5.8. With Ca as the electrolyte, no adsorption of Cd, Ni, or Zn was found. In Na electrolyte, equivalence between influent and effluent concentrations for Cd, Ni, and Zn was reached. The difference between effluent and influent concentrations of Zn, Ni, and Cd remained significant in the absence of electrolyte. For all pH values and electrolytes the difference between effluent and influent concentrations of Cu was significant. It is concluded that PTFE cups affect the concentrations of heavy metals sampled at low soil solution concentrations. Cadmium, Cu, Ni, and Zn adsorb to the cup at pH > 4.5 and low ionic strength.     

Effect of salt solution treatment on impurity removal: A case study on phosphogypsum

This study gives a brief demonstration of impurity removal efficiency upon salt solution treatment of phosphogypsum (PG). The experimental set up has been designed according to a multi-variable Box–Behnken Design (BBD) with stirring time, solid: liquid (PG:salt solution) ratio and temperature as the conducted in various salt solutions. PG sample has been treated with sea water, 5% NaCl and 10% NaCl solutions according to the BBD matrix. Fluoride (F), copper (Cu), manganese (Mn), and nickel (Ni) amounts in the PG sample have been measured upon pre- and post-treatment with salt solutions. Among other operating conditions, temperature has been the dominant factor on fluoride removal efficiency, and responses for the factors determined in the experiment runs indicated that a significant correlation could be established between temperature and fluoride removal, sea water being the most efficient salt solution. Higher copper, manganese, and nickel removal efficiencies have been observed in single salt NaCl solution systems however no significant correlation could be established between factors. Results indicate that pre-treatment of PG located near coastal regions with sea water can be a cost-effective approach and applicable on industrial scale when fluoride removal is of importance.     

Removal of ammonium from aqueous solution by ion exchange on natural and modified chabazite

The ammonium exchange capacity of a natural chabazite was studied in this work. The XRD analysis of the zeolite sample revealed that the main zeolitic phase was chabazite. The textural properties were determined by the N₂-BET method and the surface morphology and charge were examined using a scanning electron microscope and a zetameter, respectively. The ion exchange equilibrium data were obtained in a batch adsorber and the Langmuir isotherm fitted plausibly well the equilibrium data. The effects of the temperature and pH on the ammonium exchange capacity of chabazite were investigated and the capacity increased augmenting the temperature from 15 to 35 °C and pH from 3 to 6. The natural chabazite was modified by a hydrothermal treatment using NaCl and KCl solutions and it was found that the modification influenced the ammonium exchange capacity of the chabazite. The ammonium capacity of natural chabazite was compared with that of a natural clinoptilolite and it was concluded that the chabazite capacity was 1.43 times higher than that of clinoptilolite.     

不同处理方法对几种牧草种子发芽率的影响

主要对白三叶、紫花苜蓿、苇状羊茅、多年生黑麦草这4种野生牧草种子进行发芽试验,通过温度、NaCl溶液、KNO3溶液、浓H2SO4溶液、H2O2溶液等不同方法对这4种草种进行处理,对提高野生牧草种子的发芽方法进行探讨。结果表明,不同处理方法对发芽率的影响均达到显著水平。