水环境中抗生素的污染现状及其去除方法研究进展

抗生素是用于防治人类和动物病菌性疾病,以及促进动物生长的一大类化学品.基于目前国内外大量使用抗生素的情况,本文针对抗生素对环境水体造成的污染,从环境水体中抗生素的来源入手,分析了抗生素在环境水体中的残留与污染水平.并讨论了目前国内外抗生素去除的研究情况,主要对常规处理技术、化学氧化、吸附3种手段进行了分析,最后对抗生素...     

水体中氟乐灵的生物毒性和去除研究进展

作为一种在全球范围内广泛使用的二硝基苯胺类除草剂,氟乐灵对环境和人体健康的潜在危害越来越受到人们的关注.本文首次总结了水体中氟乐灵的来源、生物毒性、毒性机理以及饮用水处理中去除氟乐灵的物理、化学和生物方法.传统单独的加氯消毒、生物膜工艺等通常难以高效去除水体中的氟乐灵,而以紫外线和臭氧为基础的高级氧化技术（AOPs）由于能产生具有强氧化能力的羟基自由基而对水体中痕量氟乐灵有较好的去除效果.最后在此基础上,对今后的研究方向进行了展望,提出改进饮用水中微量氟乐灵的毒性检测和去除工艺亟待解决的问题.     

Fenton氧化法处理难降解有机废水的研究进展

Fenton氧化法在处理难降解有机污染物时具有独特的优势,是一种很有应用前景的废水处理技术。在阐述传统Fenton氧化、光Fenton氧化、电Fenton氧化技术的基础上,介绍了三种氧化技术在难降解有机废水处理中的应用现状,并对其在废水处理中的优势、存在问题和研究方向作出了系统评述。     

声化学降解水体有机污染物

水体中微量、痕量有机污染物的环境与生态效应一直是环境化学中研究的热点内容。1992年,国家自然科学基金委员会将之列为重大课题进行研究,并取得一定进展。而对饮用水,深度处理的目标是采用高效的方法去除污染物。在已经推广的方法中主要有活性炭吸附、臭氧氧化、光化学催化和超滤法等。其中以臭氧氧化法最具有推广价值。但其处理成本较高,对具有强烈环境毒理学效应的芳香族、杂环类化合物的氧化降解率较低。因此,水体中微量,痕量有机污染物的高效去除方法是水处理技术中的难题。80年代以来,声     

基于硫酸根自由基的活化过硫酸盐新型高级氧化技术研究新进展

基于硫酸根自由基的活化过硫酸盐高级氧化技术近年来受到了广泛的关注,硫酸根自由基有较强的氧化能力并且对难降解有机物具有优异的处理效果。主要对现有过硫酸盐活化技术如热活化、UV活化、金属活化的研究进展进行了阐述,并介绍了新型活化技术如电化学活化、超声活化和碳纳米管活化的最新研究成果。目前,活化过硫酸盐技术仍存在活化效率不高、目标污染物矿化程度较低等问题,同时,由于实际水体的背景有机物较为复杂,氧化过程有可能会生成有害的消毒副产物。     

典型广谱抗生素的污染现状和处理技术研究进展

典型广谱抗生素是一类对生态环境和人类健康具有潜在威胁的新型污染物,其污染现状及相关处理技术受到国内外越来越多的关注。本文概述了典型广谱抗生素在环境中的污染现状,并介绍了几种针对低浓度抗生素污染原水的处理技术,包括离子交换、吸附法、膜滤法及化学氧化法等,为微污染水源中抗生素的处理提出进一步可能的研究方向。     

功率超声应用于有机污染物降解的研究概况

功率超声是一项降解有机污染物的新型技术。本文介绍了功率超声降解有机污染物的原理：声空化理论及功率超声降解过程中导致有机物分解的三个主要机理,即高温热解机理、OH自由基氧化机理以及超临界水氧化机理。并系统地介绍了挥发性及难挥发性有机物应用功率超声降解时,在不同降解机理影响下的处理效果。文章同时介绍了影响超声降解的一些重要的物理、化学因素。最后提到目前超声降解存在的问题和发展前景。     

光催化氧化处理难降解污水的应用前景

随着工业的不断发展,环境污染日益严重,传统水处理工艺中的物理、生物方法不能满足水处理的需要。将光催化氧化法应用于气相和水相中一些难降解污染物的治理,研究结果表明,催化剂的选择、反应器的设计和对降解条件的优化是提高污染物光催化降解效率的关键因素。半导体光催化技术具有高稳定性、耐腐蚀、无毒的特点,在处理过程中不产生二次污染,有机污染物能被彻底无机化,因而这是一种洁净的处理技术。光催化技术为彻底解决水污染问题提供了新的手段,它在环境污染治理中有广阔的应用前景。     

深圳市前海铁石片区沿江河涌污染特征及对策分析

城市河涌黑臭水治理是新时代提高居民生活水平的重要环节,以深圳前海铁石片区沿江河涌为研究对象,采用化学元素分析、X射线衍射及电化学氧化技术对河涌水体、底泥进行微观测试与分析,研究影响河涌水体及底泥污染的主要因素,探索快速降低河涌水体氨氮指标的方法。研究结果显示铁石片区河涌水体黑臭主要指标是氨氮、总磷等有机类污染物,无机重金属离子含量较低;河涌底泥中有机质及重金属含量低于建设用地限制值,通过添加改性材料可提升底泥利用性能;电化学氧化技术能够快速降低黑臭水中氨氮含量,试验结果显示在氧化反应一小时后黑臭水体氨氮降解率超过90%。     

对铁碳处理硝基酚废水的研究

铁碳降解水中难降解有机污染物的影响因素、最佳工艺参数及处理效果;初步探讨了氧化降解污染物的作用机理;通过分析污染物降解的中间产物,提出了污染物降解的可能途径.探讨了pH、铁碳用量、温度以及锰矿物的粒径等对处理效果的影响,在最佳的工艺条件下,CODCr的去除率达到95%以上,TOC测定表明：大部分硝基酚被氧化降解为H2O和CO2.对硝基酚的降解途径主要是微电解将对硝基酚还原为对氨基酚,对氨基酚在酸性条件下被软锰矿氧化为H2O和CO2做探索性研究.     

Degradation and removal methods of antibiotics from aqueous matrices--a review

Over the past few years, antibiotics have been considered emerging pollutants due to their continuous input and persistence in the aquatic ecosystem even at low concentrations. They have been detected worldwide in environmental matrices, indicating their ineffective removal from water and wastewater using conventional treatment methods. To prevent this contamination, several processes to degrade/remove antibiotics have been studied. This review addresses the current state of knowledge concerning the input sources, occurrence and mainly the degradation and removal processes applied to a specific class of micropollutants, the antibiotics. In this paper, different remediation techniques were evaluated and compared, such as conventional techniques (biological processes, filtration, coagulation, flocculation and sedimentation), advanced oxidation processes (AOPs), adsorption, membrane processes and combined methods. In this study, it was found that ozonation, Fenton/photo-Fenton and semiconductor photocatalysis were the most tested methodologies. Combined processes seem to be the best solution for the treatment of effluents containing antibiotics, especially those using renewable energy and by-products materials.     

高级氧化法去除水中药物和个人护理用品的研究进展

药品和个人护理用品(PPCPs)由于其对环境及人体具有潜在影响,受到国内外越来越多的关注。高级氧化技术(AOPs)对于处理PPCPs极具发展前景。本文概括了药品和个人护理用品(PPCPs)的概念和种类,并对几种高级氧化技术处理PPCPs的基本原理和处理效果做了较为详细的阐述并提出进一步可能的研究方向。     

Recent trends in treatment technologies of emerging contaminants

In the recent years a group of contaminants, known collectively as emerging contaminants (ECs), have attracted considerable attention due to their widespread in the environment, and lack of knowledge on their impacts on ecosystem and human health. This review gives an overview on the sources, impacts, and conventional treatment technologies of ECs and an in-depth review of the literature on the state-of-the-art treatment technologies and their performance in the removal of ECs from water sources and drinking water. A careful statistical analysis of the number of publications on the different treatment technologies of ECs was performed to identify the hot spots in this research area. Conventional treatment technologies are not able to remove ECs sufficiently. The discharge of raw or partially treated wastewater is the main source of ECs in the environment. The research in recent years is focusing on using advanced treatment process (AOPs), followed by adsorption and membrane technologies. From a technical point of view, AOPs surpass other treatment technologies as they can completely eradicate ECs without the generation of side products. Developing efficient, green, and cost-effective materials to be used as adsorbents, photocatalysts, membranes, or membrane fillers, is one of the main research trends nowadays. Combined AOPs based on exploiting solar light, ultrasound and electrochemistry are gaining growing interest and show high potential for the treatment of ECs.     

Persistence of fermentative process to phenolic toxicity in groundwater

The fermentation process is an important component in the biodegradation of organic compounds in natural and contaminated systems. Comparing with terminal electron-accepting processes (TEAPs), however, research on fermentation processes has to some extent been ignored in the past decades, particularly on the persistence of fermentation process in the presence of toxic organic pollutants. Both field and laboratory studies, presented here, showed that microbial processes in a groundwater-based system exhibited a differential inhibitory response to toxicity of phenolic compounds from coal tar distillation, thus resulting in the accumulation of volatile fatty acids (VFAs) and hydrogen. This indicated that fermentation processes could be more resistant to phenol toxicity than the subsequent TEAPs such as methanogenesis and sulfate reduction, thus providing us with more options for enhancing bioremediation processes.     

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.     

BIOLOGICAL INDICATORS AND BIOLOGICAL EFFECTS OF ESTUARINE/COASTAL POLLUTION1

ABSTRACT: Sustained interest in and concern about the health status of the aquatic environment has resulted in extensive research focused on (1) effects of pollution on survival, growth, and reproduction of resource species at all life stages; (2) diseases of fish and shellfish, as they may be related to pollution and as they may serve as indicators of environmental stress; and (3) contaminant body burdens in fish and shellfish - their effects on the aquatic animals and their potential effects on humans. Effects, lethal and sublethal, of pollutants on life history stages of fish and shellfish have been documented, as have impacts on local stocks in badly degraded habitats, but as yet there has been no adequate quantitative demonstration of effects on entire aquatic species - probably because of the difficulty in sorting out relative effects of the many environmental factors that influence abundance. Sublethal effects, especially those that result in disease, have been examined intensively, and some diseases and disease syndromes have been associated statistically with pollution. Other pollution indicators (biochemical, physiological, genetic, behavioral, and ecological) have also received some attention, as have body burdens of contaminants in aquatic species. Research, especially that conducted during the past decade, has done much to clarify the many pathways and toxic effects of contaminants on aquatic animals, and has also helped to identify mechanisms for survival of fish and shellfish in the presence of environmental changes caused by human activities.     

LAKE REHABILITATION TECHNIQUES AND EXPERIENCES1

ABSTRACT: The degradation of many lakes is the result of aging processes which have been accelerated by the activities of man. Where it is too late to prevent sedimentation and eutrophication problems, lake rehabilitation and protection comprise a resource management option warranting serious consideration. A Wisconsin Lake Renewal Demonstration Project has been evaluating several rehabilitation schemes for the past five years. A selected summary of Project lake rehabilitation activities, including nutrient inactivation, dilution, aeration, and several types of aquatic plant management, suggests the present status of lake rehabilitation.