Fe2+EDTA络合-铁屑还原连续脱除烟气中NO

研究了铁屑塔式反应器连续脱除烟气中NO的过程,建立了该过程的数学模型,并对其主要影响因素进行了讨论.结果表明,铁屑塔式反应器可连续稳定地脱除烟气中NO,进气NO浓度的变化对脱硝效率没有影响,脱硝效率随烟气流量的增加而下降,随脱硝溶液流量和填料层高度的增加而增加.所建模型的计算值和实测值能够很好地吻合,该模型可用于预测脱硝过程参数对脱硝效率的影响.     

钢铁企业水系统实现节能减排的技术措施

很多钢铁企业面临着工业污水量远大于回用水量,处理后的工业污水因缺少用户只能外排而同时还需引入大量的工业新水的尴尬局面。节能减排不只是减少工业新水用水量和全部工业污水处理回用,更重要的是要实现工业污水排放量和回用水量之间的平衡。结合某钢铁公司的实际情况,就钢铁企业水系统实现节能减排的技术措施进行了探讨,作为工程实践的一种参考。     

零价铁对水中四氯化碳还原脱氯研究

文章研究了Fe0的纯度、粒径和投加量以及酸洗预处理对水溶液中四氯化碳的还原性脱氯作用的影响,并对其脱氯的主要产物——氯仿进行了讨论。结果表明:(1)Fe0纯度越高,粒径越小,四氯化碳的去除效果越好;(2)在实验范围内,Fe0投加量越大,四氯化碳的去除效率越高;(3)酸洗后,四氯化碳的去除效果明显的提高;(4)Fe0纯度、粒径和投加量以及酸洗处理对四氯化碳的还原产物氯仿亦具有一定的影响,四氯化碳的去除与氯仿的产生之间存在着一定的对应关系。     

包钢三合明铁矿开发对生态环境的影响

《包钢三合明铁矿区西部异常区矿产资源开发利用工程》是以地下采矿和湿法磁选选矿为生产工艺流程的建设项目,本文根据工程项目的特性、建设内容、生态影响识别,结合工程厂址周围环境特征,重点分析了工程建设期、运营期对周围生态环境的影响,并提出相应防治对策。     

刚果红的零价铁还原脱色条件及机理研究

零价铁使直接大红4BS还原脱色,其主要机理包括了电化学作用、铁粉的还原作用、铁离子的絮凝吸附作用、铁粉表面的物理吸附等。其中电化学还原与化学还原为主。当铁粉的投加量在2 g/50 ml、pH=3、摇床转速在140 rmp时,5 min内脱色率分别达到了100%、90%和80%以上。结果表明,通过改变染料的pH值、铁粉的投加量和摇床的转速都可以很好地提高脱色效果。     

Superior trichloroethylene removal from water by sulfide-modified nanoscale zero-valent iron/graphene aerogel composite

Sulfide-modified nanoscale zero-valent iron (S-nZVI) is a promising material for removal of organic pollutants from water, but S-nZVI nanoparticles (NPs) easily agglomerate and have poor contact with organic contaminants. Herein, we propose a new S-nZVI/graphene aerogel (S-nZVI/GA) composite which exhibits superior removal capability for trichloroethylene (TCE) from water. Three-dimensional porous graphene aerogel (GA) can improve the efficiency of electron transport, enhance the adsorption of organic pollutants and restrain the agglomeration of the core-shell S-nZVI NPs. The TCE removal rates of FeS, nZVI, GA and S-nZVI were 27.8%, 42%, 63% and 75% in 2?hr, respectively. Furthermore, TCE was completely removed within 50?min by S-nZVI/GA. The TCE removal rate increased with increasing pH and temperature, and TCE removal followed the pseudo-first-order kinetic model. The results demonstrate the great potential of S-nZVI/GA composite as a low-cost, easily separated and superior monolithic adsorbent for removal of organic pollutants.     

外磁场调控的聚合硫酸铁水解过程研究

基于聚合硫酸铁的UV-vis光谱学特征,利用外加电磁场对聚合硫酸铁进行磁化调控,研究了不同磁化时间和磁场强度对PFS中铁形态分布的影响.研究表明,水解过程中铁盐逐渐与羟基结合,存在由低聚态向相对较高聚态转化的趋势.整体来看,在一定范围内增加磁化时间和磁场强度可以有效促进絮凝剂的水解,但是在多工艺参数调控中,提升磁场强度能够获得更为明显的效果.通过上述研究表明,借助UV-vis光谱学特征变化的分析,可有效判断PFS在水解过程中的水解进程及转化.在相同磁场强度下,磁化4~6min时,由低聚态向高聚态转化速率更快.而在控制磁化时间相同的情况下,增大磁场强度相应水解产物的转化速率也会提高1.9%~12.3%.该研究为设计适当的磁场强度获得更好的磁絮凝效果以及PFS絮凝工艺的调控提供更为科学有效的理论指导.     

铁铝吸附剂对起爆药污染土壤中锑的稳定化研究

采用3种铁基吸附剂（FeSO₄•7H₂O、针铁矿、Fe⁰）和铝基吸附剂（Al（OH）₃）,对某起爆药污染场地土壤中锑（Sb）进行稳定化处理,通过等温吸附实验、批量浸出实验、比表面积测定以及BCR分析,研究了铁、铝单一和混合吸附剂的稳定化效果以及稳定化前后土壤比表面积及Sb形态的变化.结果表明：不同铁基吸附剂对Sb的等温吸附符合Freundlich模型,FeSO₄ （log K_f= 5.85）的吸附能力明显高于Fe⁰ （log K_f = 3.21）和针铁矿（log K_f = 4.32）;稳定时间为10d的条件下,不同铁基吸附剂对Sb的稳定化效率随添加量的增大而提高,且10%FeSO₄（97.1%） > 10% Fe⁰（72.3%） > 针铁矿（41.0%）;FeSO₄的添加明显促进了土壤中Zn、Cu、Pb的浸出,达到原土壤浸出浓度的1990.2、2.8倍和21.6倍,添加Al（OH）₃后能够显著降低Zn、Cu、Pb的浸出浓度,添加量为4%时,稳定化效率分别达到93.8%（Zn）、93.5%（Cu）和98.3%（Pb）;5%FeSO₄和4% Al（OH）₃混合吸附剂对Sb及Zn、Cu、Pb的综合稳定化效率最好,处理10d后稳定化效率最高可达94.6%、74.2%、82.2%和97.6%;进一步分析表明,混合吸附剂添加后比表面积能够达到原土壤的1.31~1.67倍,残渣态Sb比例增加0.037~0.197倍,与稳定化效果相一致,表明铁铝混合吸附剂是处理起爆药污染场地复合重金属污染土壤的有效途径.     

A.ferrooxidans对高硫煤矸石去除酸性水体中Cr(VI)的强化作用

本研究考察了Acidithiobacillus ferrooxidans（A.ferrooxidans）联合高硫煤矸石（富含FeS₂）对模拟煤矿酸性水体中Cr（VI）的去除效果.结果表明,处理Cr（VI）初始浓度为50mg/L的模拟煤矿酸性废水（pH=2.5）时,投配率为6.67~33.33g/L高硫煤矸石可使Cr（VI）去除达到良好效果.50mg/LCr（VI）在24h内即可完全被高硫煤矸石中的FeS₂还原成Cr（III）,且在反应终点时（120h）,6.67,13.33,33.33g/L高硫煤矸石对还原产物Cr（III）的吸附去除率分别为7.1%、20.2%、29.1%.然而,在高硫煤矸石的还原和吸附作用下,大部分的Cr仍以Cr（III）形式残留在酸性水体中,且高硫煤矸石的大量投加也给水体带来了Fe²⁺、Fe³⁺、SO₄^2-等二次污染物.在高硫煤矸石-Cr（VI）体系中引入A.ferrooxidans和9K培养基后,A.ferrooxidans介导的Fe²⁺生物氧化及产物Fe³⁺水解矿化过程可促进部分Fe²⁺、Fe³⁺、SO₄^2-等向次生铁矿物（包括施氏矿物和黄钾铁矾）转变,从而使模拟酸性水体中残留的Cr（III）通过次生铁矿物的吸附或共沉淀作用被清除.在A.ferrooxidans强化作用下,模拟煤矿酸性废水中Cr（VI）在96h即可达到99.4%的去除率.     

Novel synthesis of aluminum hydroxide gel-coated nano zero-valent iron and studies of its activity in flocculation-enhanced removal of tetracycline

A newly designed aluminum hydroxide gel-coated nanoscale zero-valent iron(AHG@NZVI)with enhanced activity and dispersibility of NZVI was successfully synthesized.The AHG@NZVI composite was synthesized via control of the surface AHG content.AHG@NZVI-1,AHG@NZVI-2 and AHG@NZVI-3 were prepared under centrifugal mixing speeds of 1000,2000 and 4000 r/min,respectively.The activity of AHG@NZVI was evaluated by its tetracycline(TC) removal efficiency.The effects of AHG content,pH value,reaction temperature,and presence of competitive anions on TC removal were investigated.TC could be removed by both adsorption and chemical reduction on AHG@NZVI-2(centrifugal speed 2000 r/min) in a short time with high removal efficiency(≥98.1%) at the optimal conditions.Such excellent performance can be attributed to a synergistic interaction between aluminum hydroxide gel and NZVI:(1) AHG could enhance the stability and dispersity of NZVI;(2) aluminum hydroxide gel could absorb a certain amount of TC and Fe~(2+)/Fe~(3+),which facilitated the mass transfer of TC onto the NZVI surface,resulting in acceleration of the reduction rate of TC by the AHG@NZVI composite;and(3) AHG-Fe~(2+)/Fe~(3+)could absorb a certain amount of TC by flocculation.The kinetics of TC removal by AHG@NZVI composite was found to follow a two-parameter pseudo-first-order model.The presence of competitive anions slightly inhibited the activity of AHG@NZVI systems for TC removal.Overall,this study provides a promising alternative material and environmental pollution management option for antibiotic wastewater treatment.