两级混合稳定表流湿地处理生活污水

为了提高一级稳定表流湿地(stable surface flow wetland,SSFW)的出水水质,在单级稳定表流湿地后串联一级潜流人工湿地,构成两级混合稳定表流湿地(two steps hybrid stable surface flow wetland,TSHSSFW),研究气候变化对其净化效果的影响,并同一级潜流人工湿地(one step subsurface flow wetland,OSSFW)进行对比。研究表明,气候变化对TSHSSFW的COD和总磷去除率影响较小,去除率均在80%左右;而对氨氮和总氮的去除率影响比较大,夏季TSHSSFW的氨氮和总氮去除率分别为87.77%和77.74%,而冬季氨氮和总氮的去除率分别为54.07%和48.84%。相比单级潜流人工湿地(OSSFW),有SSFW作为前处理的潜流人工湿地对氨氮和总氮的去除率较高。     

大宝山尾矿重金属形态及其潜在迁移能力分析

以大宝山槽对坑尾矿库、新鲜尾矿排放口和铁龙尾矿库3个不同区域尾矿为研究对象,采用Dold七步分级化学提取法研究了4种重金属Cu、Pb、Zn、Mn的化学形态特征,并分析了其潜在迁移能力.结果表明,Cu、Pb在所有尾矿中以原生硫化态和残渣态为主;Zn在槽对坑尾矿和新鲜尾矿中以原生硫化态和残渣态为主,在铁龙尾矿中水溶态、可交...     

泥石流堵塞坝溃决模式实验

为了研究泥石流堵塞坝溃决的模式,采用模型实验对堵塞坝溃决的过程进行模拟,实验历时2个月,共13组.实验中,通过改变主沟的水力参数和坝体参数研究泥石流堵塞坝溃决的全过程,并作了相关记录.通过对理论和实验数据的分析,泥石流堵塞坝的溃决形式有3种:冲刷溃决、有表面流的泥石流堆积体水力再启动、没有表面流的泥石流堆积体重力再启动.讨论了冲刷溃决中颗粒启动和有面流泥石流水力再启动的临界条件,并分析了启动流速u0和颗粒粒径D之间的关系;分析了泥石流重力再启动时堵塞坝坡面破坏的一般形式和特征;通过实验数据对不同溃决形式的溃决条件进行了验证,结果比较吻合.     

石油污染土壤中芘高效降解菌群的筛选及降解特性研究

从长期受石油污染土壤中驯化筛选到能以芘为惟一碳源生长的混合菌群GP3,其主要由假单胞菌株GP3A(Pseudomonas sp.)和菌株GP3B(Pandoraea pnomenusa)组成.采用摇瓶振荡培养方法,研究了不同环境条件对混合菌GP3降解芘效能的影响.结果表明,在30℃,150 r/min振荡培养下,混合菌GP3对15 mg/L芘的7 d降解率为90.6%.混合菌GP3降解芘的最适宜温度为35℃,最佳pH值为6.2.加入低浓度葡萄糖(100 mg/L)或菲(10 mg/L)作为共代谢底物,均可提高GP3对芘的降解率.混合菌对芘的降解速率(PDR)与芘的初始浓度呈正相关.研究重金属离子胁迫下GP3对芘的降解时发现,10 ms/L Zn2 的存在对芘降解效能影响较小,Cu2 对芘的降解有抑制作用,Cd2 对混合菌GP3有很强的毒性.     

Nanotechnology for improved production of algal biofuels: a review

Environmental Chemistry Letters - Fossil fuel depletion and carbon dioxide emissions are calling for carbon neutral energies such as algal biofuels, yet actual production of agal biofuels is...     

Remediation of soil and groundwater contaminated with organic chemicals using stabilized nanoparticles: Lessons from the past two decades

▪ Overviewed evolution and environmental applications of stabilized nanoparticles. ▪ Reviewed theories on particle stabilization for enhanced reactivity/deliverability. ▪ Examined various in situ remediation technologies based on stabilized nanoparticles. ▪ Summarized knowledge on transport of stabilized nanoparticles in porous media. ▪ Identified key knowledge gaps and future research needs on stabilized nanoparticles. Due to improved soil deliverability and high reactivity, stabilized nanoparticles have been studied for nearly two decades for in situ remediation of soil and groundwater contaminated with organic pollutants. While large amounts of bench- and field-scale experimental data have demonstrated the potential of the innovative technology, extensive research results have also unveiled various merits and constraints associated different soil characteristics, types of nanoparticles and particle stabilization techniques. Overall, this work aims to critically overview the fundamental principles on particle stabilization, and the evolution and some recent developments of stabilized nanoparticles for degradation of organic contaminants in soil and groundwater. The specific objectives are to: 1) overview fundamental mechanisms in nanoparticle stabilization; 2) summarize key applications of stabilized nanoparticles for in situ remediation of soil and groundwater contaminated by legacy and emerging organic chemicals; 3) update the latest knowledge on the transport and fate of stabilized nanoparticles; 4) examine the merits and constraints of stabilized nanoparticles in environmental remediation applications; and 5) identify the knowledge gaps and future research needs pertaining to stabilized nanoparticles for remediation of contaminated soil and groundwater. Per instructions of this invited special issue, this review is focused on contributions from our group (one of the pioneers in the subject field), which, however, is supplemented by important relevant works by others. The knowledge gained is expected to further advance the science and technology in the environmental applications of stabilized nanoparticles.     

Arsenic-contaminated groundwater and its potential health risk: A case study in Long An and Tien Giang provinces of the Mekong Delta,Vietnam

Environmental Science and Pollution Research - The occurrence of arsenic (As) in groundwater (drilled well water) that were used for drinking, cooking, and personal hygiene and its risks to human...     

Thiocyanate-induced labilization of schwertmannite: Impacts and mechanisms

Schwertmannite is an amorphous iron(III)-oxyhydroxysulfate that forms in acid mine drainage(AMD) environments. The characteristic of high heavy metal adsorption capability makes schwertmannite a potentially useful, environmentally friendly material in wastewater treatment. Unstable schwertmannite is prone to recrystallization.Understanding the mechanisms that induce schwertmannite labilization and affect its capacity to remove heavy metals are of great environmental and geochemical significance.Thiocyanate(SCNˉ) is a hazardous pseudohalide that is also normally found in AMD.However, little is known about the impact of Fe(III)-binding ligand SCNˉ on schwertmannite stability and its subsequent capacity to bind trace elements. Here, we investigated the adsorption of SCNˉ on schwertmannite and subsequent mineral transformation to characterize this little-known process. The appearance of Fe2+indicated that the interactions between schwertmannite and SCNˉ may involve complexation and reduction reactions. Results showed that the majority of the adsorbed-SCNˉ was immobilized on schwertmannite during the 60-days transformation. The transformation rates of schwertmannite increased with increasing concentrations of SCNˉ. Goethite was detected as the dominant transformation product with or without SCNˉ. The mechanisms of SCNˉ-promoted dissolution of schwertmannite can be described as follows:(1) formation of Fe(III)–NCS complexes on the schwertmannite surface and in solution, a process which increases the reactivity of solid phase Fe(III);(2) the extraction of Fe(III) from schwertmannite by SCNˉ and subsequent schwertmannite dissolution; and(3) the formation of secondary minerals from extracted Fe(III). These findings may improve AMD treatment strategies and provide insight into the use and potential reuse of schwertmannite as a trace element sorbent.     

复合多管除尘器在湿法水泥回转窑除尘中的应用

把具有惯性沉降除尘、旋风子除尘两级一体功能的复合多管除尘器用于带湿式蒸发器的湿法水泥回转窑尾气除尘，替换原“旋风除尘器＋电除尘器”除尘系统中的多筒旋风器。运行测试表明，它的除尘效率达到９４６％，确保了窑尾排放烟尘浓度达到国家标准。     

工艺安全管理系统的发展现状及建议

介绍工艺安全管理的发展历程、关键要素及各要素在企业不同生命周期的应用,总结国外发达国家的相关法规及实施工艺安全管理后重大事故发生概率的变化,对我国工艺安全管理提出建议。