污染土壤的物化修复治理技术

污染土壤的修复治理过程中,物化技术以其快速高效的特点成为国内外研究的热点。本文通过对工程措施、玻璃化技术、热修复、电动力修复、光化学降解、化学淋洗、化学固定/稳定化、化学氧化以及联合修复等常见土壤物化治理技术的分析,探讨了各种工艺技术的性能及优缺点,旨在为我国土壤污染修复治理技术的选择提供参考。     

污染土壤修复技术研究现状与趋势

本文综述了国内外污染土壤修复技术的研究现状和发展趋势,并联系我国土壤污染态势探讨了中国土壤修复技术研发的需求.文中指出,包括生物修复、物理修复、化学修复及其联合修复的污染土壤修复技术体系已经基本形成;土壤修复技术正朝着6大方向发展,即向绿色与环境友好的生物修复、联合杂交的综合修复、原位修复、基于环境功能材料的修复、基于设备化的快速场地修复以及土壤修复决策支持系统及修复后评估等技术方向发展.我国土壤环境污染态势严峻,需要发展能广泛应用、安全、低成本的原位农田生物修复技术和物化稳定技术,发展安全、土地能再开发利用、针对性强的工业场地快速物化工程修复技术与设备,发展能控制水土流失与污染物扩散的矿区植物稳定化与生态工程修复技术,建立污染土壤修复技术规范、评价标准和管理政策.     

铅污染土壤的修复技术

综述了铅对土壤的污染及其修复技术。目前应用于污染土壤的修复技术可分为物理化学修复技术和生物修复技术。物理化学修复技术又可分为隔离包埋技术,固化稳定技术,Pyrometalluryical separation,化学稳定技术,电动修复技术等;生物修复技术可分为微生物修复技术和植物修复技术等。以期进一步推动铅污染土壤的治理和修复工作。     

电动修复土壤中重金属污染的改良方法

介绍了治理土壤重金属污染的电动修复技术的一些进展,包括:通过控制电解过程中的极化、土壤pH值、控制土壤温度来对电动修复技术方法进行改良。     

镉污染土壤的植物修复

Cd在土壤中有稳定、积累和不易消除的特点,且可通过食物链富集使人体产生慢性中毒。我国农村镉污染尤其严重。植物修复技术是优秀的土壤镉污染治理技术,近两年来成为研究热点。本文阐述了土壤镉污染植物修复技术的机理、具体做法和技术进展。     

化学钝化法修复重金属污染土壤研究进展

化学钝化修复是通过往土壤中加入钝化剂,以调节和改变重金属在土壤中的物理化学性质,使其发生氧化还原、沉淀、吸附、螯合、抑制或拮抗等一系列反应,降低其在土壤环境中的生物有效性和可迁移性,从而减少这些重金属元素对动植物的毒性.这种方法因投入低、效率高、修复快速、操作简单等优点,对大面积污染土壤的修复具有较好的应用前景.文中系统地综述了土壤重金属污染现状、危害、来源、特点及化学钝化修复技术的类型、作用机理、影响因素、修复实例,并分析了化学钝化技术的研究现状、存在的问题及未来的发展方向.     

光催化降解土壤中多环芳烃

多环芳烃(PAHs)是一类广泛分布于土壤中的持久性有机污染物,其化学结构稳定,具有高疏水性、难降解性和三致毒性,多产生于交通运输、工业生产、垃圾焚烧等人为活动中。近年来,日益严峻的PAHs污染给土壤生态、食品安全和民众健康带来严重威胁。因此,对土壤PAHs污染的治理具有重要意义且亟待解决。在众多PAHs处理技术中,光催化技术凭借能耗低、操作简便、环境友好等优势,受到了研究者们的广泛关注。本文概述了PAHs的光催化降解机理与途径,综述了光催化修复土壤PAHs领域的研究进展,讨论了不同环境因素对催化剂降解效果的影响,并总结了当前光催化技术应用于土壤PAHs污染修复所面临的挑战。     

生态环境监测与预警技术提升

正目前我国土壤污染严重,全国土壤总超标率达16.1%,修复需求迫切,工业污染场地修复、矿区土壤修复和耕地修复三部分市场空间超万亿。我国土壤修复技术的提高可有效降低治理难度,推动修复效率提升、项目落的加速,行业产值加速释放。促进生态环境监测与预警技术提升,监测板块受益:《"十三五"国家科技创新规划》(以下简称"规划")以建设陆海统筹、天地一体、上下协同、信息共享的生态环境监     

农用地重金属污染现状及修复方法

土壤是农业生产的基础,随着社会的进步和经济的高速发展,越来越多的污染物排入土壤,其中重金属所占的比例逐渐增大,成为土壤治理的主要对象。农用地重金属污染不仅会导致作物产量降低,而且重金属会随着食物链在人体内积累,对人体产生极大的危害,因此重金属污染修复迫在眉睫。文章综述了农用地重金属污染现状、来源以及各种修复技术,分析了不同修复技术的优势及不足,为运用联合修复技术控制农用地重金属污染提供一定的借鉴与思路。     

表面活性剂泡沫强化修复污染土壤研究进展

全球土壤资源污染严重,表面活性剂泡沫强化修复技术因泡沫流动受重力影响小、避免淋洗液难控制使区域扩大引发二次污染、修复效果好等备受关注。本文综述了表面活性剂泡沫强化修复技术在治理污染土壤中的研究进展,详细阐述了表面活性剂泡沫强化修复污染物的效果、机理、影响因素及应用前景,并就表面活性剂泡沫强化修复技术今后的研究方向进行了展望。     

锑污染土壤固化-稳定化修复技术研究进展

在对比了几种修复锑污染土壤的方法后,发现固化/稳定化技术是一种成熟有效的处理方法,该技术具有快速、彻底、经济的优点,但存在固化后的锑易被二次活化、后期监测困难、固化后土壤难以二次利用等问题。同时对不同的固化剂、稳定化剂的作用原理进行总结,概述了水泥、石灰/粉煤灰、药剂类对最终修复效果的影响,分析了在土壤理化性质、环境因素影响下锑的再活化行为,提出了应选择高效的试剂、将其与其他修复技术联合使用的研究方向。     

硫丹在土壤中的降解特性与污染修复模拟研究

硫丹是具有很高毒性的有机氯农药,历史上我国硫丹产量较大,因此急需硫丹污染场地的修复技术．在实验室条件研究了硫丹在土壤中的降解行为,使用模拟生物堆降解研究了硫丹污染土壤的生物堆修复和化学修复条件．结果表明：在土壤介质中,α-硫丹可部分转化为β-硫丹：硫丹为微生物好氧降解;添加秸秆和绿肥及适当的通气可促进硫丹的降解;添加EM菌或葡萄糖和硝酸铵或复合肥均会抑制硫丹降解．碱性条件有利于硫丹快速降解,因而向污染土壤中添加石灰是一种高效的化学修复方法．     

Cyclodextrins in innovative engineering tools for risk-based environmental management

Experimental results, which may serve as basis for innovative applications of cyclodextrins (CDs) in environmental technologies, are presented here. Some newly developed CD-aided tools are used in sampling, measuring the concentration or testing the effect of contaminants in water and soil. The innovative methods such as the bacterial bioassays with CD-increased sensitivity or the CD-filled absorptive samplers for air and water sampling are utilised in environmental exposure, hazard and risk assessment. Technological developments aim the reduction of the risk of chemical substances in waters and soils. CD-aided environmental remediation is introduced through examples for the elimination of organic contaminants from water by CD-filters, and for the enhancement of the mobility and availability of soil contaminants in this way increasing the efficiency of soil remediation by water extraction, chemical oxidation, biodegradation, etc.     

重金属污染土壤修复技术研究进展

概述了土壤重金属污染的特点、现状及污染的来源,主要从工程措施、农业措施、改良措施和生物修复措施四方面对国内外各种修复技术进行分析与评论,指出各类措施的原理、优缺点、实用性。同时,提出了当前土壤重金属污染与修复技术研究的重点。     

土壤中多环芳烃修复技术的研究进展

近年来我国的土壤污染问题日益严重,严重危害着人类的生活环境与身体健康,其中主要的有机污染物之一为多环芳烃(PAHs)。PAHs作为一种持久性有机污染物在全球范围内广泛存在,其主要污染来源于人为因素。由于PAHs复杂的杂环芳环结构、较强的疏水性和较高的热稳定性等,使其在土壤中不易自然降解因而具有较高的持久性。本文综述PAHs的主要污染来源、暴露途径及其对人体的危害,并从物理、化学和生物三个方面简要介绍土壤中PAHs的修复方法,并分析每种方法的优势以及面临的挑战。新兴的修复技术结合三种修复技术的优点,具有更好的修复效果和应用前景,但仍存在着一些亟待解决的问题。期望本文能为土壤中PAHs的修复提供借鉴,并为今后的研究方向提供新的思路。     

Cyclodextrins for remediation of soils contaminated with chlorinated organics

The effect of random methylated ??CD (RAMEB) on the efficiency of various remediation technologies was studied in lab-scale model-experiments applying soil and groundwater originating from a site contaminated with trichloroethylene (TCE). The solubility of TCE was enhanced to tenfold in 10% solution of RAMEB compared to that in water. This solubilizing effect was utilized for remediation of the TCE contaminated soil using enhanced groundwater extraction and in situ TCE oxidation by ISCO (= in situ chemical oxidation). The effect of CD on TCE extraction from soil was studied using two technologies: ground-water extraction followed by air stripping or UV irradiation. The RAMEB-enhanced ISCO was applied directly to the water-saturated soil without water extraction or separation. The efficiency of air stripping of TCE (removal by bubbling air through the contaminated ground-water obtained by extraction) was decreased in the presence of RAMEB due to the volatility decreasing effect of complexation. The efficiency of the entire technology (extraction and air stripping together) was, however, enhanced as three times more TCE was dissolved, and more than twice as much could be removed when 5% RAMEB solution was applied instead of water. Similar results were obtained by UV irradiation. Although the complexation has a protective effect against degradation caused by irradiation, the efficiency of the technology (extraction and subsequent UV irradiation) is enhanced to approximately threefold, because more than 10 times higher TCE concentration was found in the extract using 20% RAMEB concentration. ISCO is based on Fe-catalyzed oxidation using hydrogen peroxide. The catalytic effect of RAMEB was observed only when it was applied together with Fe(II) salts. Without Fe(II) the effect of complex formation dominated. When hydrogen peroxide and FeSO₄ were applied with RAMEB, over five times enhancement in TCE removal was obtained compared to the technology based on the addition of hydrogen peroxide and Fe(II) salts without RAMEB. This effect shows that the solubilizing effect on iron catalyst is at least as much or even more important than the solubilizing effect on TCE. The ternary complex formation with ferrous/ferric ion and TCE seems to be responsible for the enhanced efficacy.     

Relevance of gaseous flows in electrochemically assisted soil thermal remediation

Treatment of polluted soil is one of the priorities in the search of a more sustainable planet. Electrochemically assisted soil remediation has been considered a good option for removing organic contaminants contained in soil, including the removal of volatile organic compounds, associated with gaseous streams produced during the treatment. Also, recently, electrochemical gas treatment technologies have been appointed as promising for the treatment of volatile organic compounds. In this work, we review the current opinion about the most recent studies in both areas. The first section focuses on the production of gaseous compounds during soil remediation by conventional and electrochemical systems. The second section describes the recent progress in the integration of adsorption and absorption with electrochemical processes. Finally, we discuss the holistic application of assisted electrochemical technologies in soil remediation, considering also emerging processes recently published in the literature.     

Combination of electrokinetic remediation with permeable reactive barriers to remove organic compounds from soils

In recent years, technologies suitable for the remediation of environmental contaminants from soil have received considerable attention. Among them, electrokinetic (EK) remediation and permeable reactive barriers (PRBs) must be highlighted because of their environmental compatibility, versatility, amenability, scale-up practice, and cost-effectiveness. For this reason, the first section is focused on the fundamentals of EK remediation and PRB for environmental remediation, together with the phenomena that occur in the soil and that permit its effectiveness. The second section discusses most important materials used as barriers and describes the application, as well as the recent progress. The outlooks of PRB–EK technologies for the upcoming future are finally concluded in this minireview.     

Prospects on integrated electrokinetic systems for decontamination of soil polluted with organic contaminants

Overall, investigations about the utilization of electrokinetic technology alone or in combination with other processes have attracted particular attention in recent years for remediation of soils contaminated with heavy metals and organic compounds. This fact is due to its peculiar benefits together with its capability of operating in a fine and low-permeability matrix. This review aimed to ascertain the most recent developments on the commonly proposed integrated technologies (electrokinetic soil washing, electrokinetics coupled with permeable reactive barriers, electrokinetic-advanced oxidation processes, and bioelectrokinetic remediation), by evaluating the gaps, challenges, and trends of these systems in the last years. Special attention is paid to the current approaches for overcoming the main bottlenecks of electrokinetics concerning scale-up and reduction of electric energy consumption by integration of renewable energies.