氢气还原海绵铁去除水体中硝酸盐的研究

利用小球烧结和氢气还原工艺制备了粒径1mm～5mm的多孔性球形海绵铁,对球形海绵铁去除水体中硝酸盐的效率及去除动力学进行了研究。结果表明:溶液初始pH值对硝酸盐去除效率的影响显著,初始pH值小于3时,硝酸盐的去除率随溶液初始pH的增加而逐渐降低;初始pH值大于3时,硝酸盐的去除率又随之升高。硝酸盐浓度低于10mgN/L时,硝酸盐去除率随着硝酸盐初始浓度的增加而增加,硝酸盐的残余量保持在0.4mgN/L左右;硝酸盐浓度高于20mgN/L时,硝酸盐的去除率随初始硝酸盐浓度的增加而略有降低。球形海绵铁去除硝酸盐为一级动力学反应,反应级数为0.970～1.378,表观反应速率常数为0.314h-1～0.536h-1。海绵铁还原硝酸盐的主要产物为氨氮,随着还原反应的进行,溶液pH值快速增加,氨氮以分子态氨的形式从水中逸出。进行归纳总结和对比,并以多环芳烃的提取为例列举了各方法的应用步骤,从而为其他环境样品其他有机物分析预处理提供参考。     

不锈钢-铝电极电絮凝处理含铜废水的试验研究

采用不锈钢-铝为电极的电絮凝法对含铜废水进行了处理试验研究,模拟废水铜离子浓度为150 mg/L,以废水中的铜离子浓度和COD去除率为考察指标,在电流密度为15 mA/cm2、极板间距为3 cm、pH值为7、电解时间为120 min的条件下,Cu2+的去除率平均能达到99%以上,COD的去除率亦能达到97%;在此基础上,应用于实际的电路板腐蚀液废水的处理试验,发现Cl-浓度在200 mg/L以上时,对废水先进行相关预处理也能达到较好的处理效果,该研究对进一步探讨Cl-对电絮凝的影响机理有一定的借鉴意义。     

荣钢节水减排集成技术研究与实践

针对钢铁企业耗水量大、供水资源匮乏等问题,以荣钢集团为研究实体,调查其用水分布与工序,进行水量平衡测试及基础数据的统计,在分析荣钢水资源利用状况基础上,优化水资源配置,研究钢铁行业节水减排集成技术与实施措施,通过一水多用、串级使用、加强节水控污、建立多水源处理再生系统等方法,节约了水资源,提高了水资源的利用率,使企业节水减排取得较好的成效。     

基于工艺创新的钢铁工业发展研究

中国钢铁工业是目前内部矛盾十分突出的行业,面临着产能过剩、产品转型和产业升级等一系列复杂问题。本文从钢铁工业突出的流程化特点入手,在借鉴世界先进国家钢铁工业发展经验的基础上,依据可持续发展观,提出中国钢铁工业生产工艺的改进和创新思路,力争以此为突破口来推进钢铁工业改革,也为钢铁工业技术研发、资金投放和项目选择提供有益的参考。     

模拟沉积磷迁移转化行为的铁盐影响机制研究

室内模拟研究了沉积物中不同形态磷在不同浓度铁盐影响下,在沉积层中的垂直迁移转化行为.结果表明,分别向模拟系统投加的10 mL和50 mL的1 mol/L FeCl_3溶液,沉积层中磷的含量降低,投加30 mL的1 mol/L FeCl_3溶液时,沉积层中磷含量增加.沉积物中适当的铁盐会阻止沉积物磷向水体释放,铁盐浓度过高或过低,在一定程度上都会促进沉积物中磷的释放,实验结果对研究内源磷释放与湖泊富营养化有重要的意义.     

零价铁（ZVI）去除Cu2+的特性及机制研究

研究了零价铁去除水溶液中铜离子的影响因素及动力学特性,并利用X射线衍射(XRD)分析对反应机制进行了探讨.结果表明,当溶液中Cu2+的浓度为300 mg/L,零价铁的用量为1 g/L时,Cu2+的去除率99%.Cu2+的去除速度很快,且反应前30min零价铁去除Cu2+的过程可以用一级反应动力学方程模拟.零价铁去除Cu2+的机制主要基于氧化还原反应,Cu2+的还原产物主要为Cu和Cu2O.     

Combined toxicity of copper and cadmium to six rice genotypes （Oryza sativa L.）

Accumulation of copper (Cu) and cadmium (Cd) in six rice cultivars (94D-22, 94D-54, 94D-64, Gui630, YY-1 and KY1360) was evaluated through exposure to heavy metal contamination (100 mg/kg Cu, 1.0 mg/kg Cd, and 100 mg/kg Cu + 1.0 mg/kg Cd) in a greenhouse. The dry weight of shoot and root, concentrations of Cu and Cd in plant tissues and the Cu, Cd, P, Fe concentrations in the root surface iron plaques were analyzed eight weeks later after treatment. The results indicated that the plant biomass was mainly determined by rice genotypes, not Cu and Cd content in soil. Separated treatment with Cu/Cd increased each metal level in shoot, root and iron plaques. Soil Cu enhanced Cd accumulation in tissues. In contrast, Cu concentrations in shoot and root was unaffected by soil Cd. Compared to single metal contamination, combined treatment increased Cd content by 110.6%, 77.0% and 45.2% in shoot, and by 112.7%, 51.2% and 18.4% in root for Gui630, YY-1 and KY1360, respectively. The content level of Cu or Cd in root surface iron plaques was not affected by their soil content. Cu promoted Fe accumulation in iron plaques, while Cd has no effect on P and Fe accumulation in it. The translocation of Cu and Cd from iron plaques to root and shoot was also discussed. These results might be beneficial in selecting cultivars with low heavy metal accumulation and designing strategies for soil bioremediation.     

Phosphorus utilization and microbial community in response to lead/iron addition to a waterlogged soil

Constructed wetlands have emerged as a viable option for helping to solve a wide range of water quality problems. However, heavy metals adsorbed by substrates would decrease the growth of plants, impair the functions of wetlands and eventually result in a failure of contaminant removal. Typha latifolia L., tolerant to heavy metals, has been widely used for phytoremediation of Pb/Zn mine tailings under waterlogged conditions. This study examined e ects of iron as ferrous sulfate (100 and 500 mg/kg) and lead as lead nitrate (0, 100, 500 and 1000 mg/kg) on phosphorus utilization and microbial community structure in a constructed wetland. Wetland plants (T. latifolia) were grown for 8 weeks in rhizobags filled with a paddy soil under waterlogged conditions. The results showed that both the amount of iron plaque on the roots and phosphorus adsorbed on the plaque decreased with the amount of lead addition. When the ratio of added iron to lead was 1:1, phosphorus utilized by plants was the maximum. Total amount of phospholipids fatty acids (PLFAs) was 23%–59% higher in the rhizosphere soil than in bulk soil. The relative abundance of Gram-negative bacteria, aerobic bacteria, and methane oxidizing bacteria was also higher in the rhizosphere soil than in bulk soil, but opposite was observed for other bacteria and fungi. Based on cluster analysis, microbial communities were mostly controlled by the addition of ferrous sulfate and lead nitrate in rhizosphere and bulk soil, respectively.     

铁屑置换沉淀海绵铜动力学研究

从动力学角度研究了铁屑置换沉淀海绵铜的化学反应机理,探讨了溶液pH,Cu2+初始浓度,振荡强度和温度等因素对铜置换率的影响及动力学模型。通过测定不同温度条件下的表观反应速率常数(k);求得置换反应活化能为16.21kJ/mol。试验结果表明,置换反应的所有动力学数据服从一级反应速率规律,置换过程符合扩散控制机理。     

中国废钢铁产业的投资前景看好

国际金融危机给我国废钢铁市场带来影响,同时也为我国废钢铁产业的调整和发展带来新的机遇和挑战。针对我国废钢铁市场的需求空间、废钢铁加工处理技术和装备水平的提升以及废钢铁产业发展的投资环境等问题进行分析和阐述,为我国废钢铁产业投资市场的发展提供决策依据。