氢氧化钠-膜过滤法处理含镍电镀废液

介绍了氢氧化钠－膜过滤法处理含镍电镀废液新工艺，并确定了主要的技术参数。该工艺具有回收NiSO4纯度高，出水Ni^2 可实现稳定达排放等优点。     

Phytoremediation of Soil Polluted by Nickel Using Agricultural Crops

Soil pollution due to heavy metals is widespread; on the world scale, it involves about 235 million hectares. The objectives of this research were to establish the uptake efficiency of nickel by some agricultural crops. In addition, we wanted to establish also in which part of plants the metal is stored for an eventual use of biomass or for recycling the metal. The experiments included seven herbaceous crops such as: barley (Hordeum vulgaris), cabbage (Brassica juncea), spinach (Spinacea oleracea), sorghum (Sorgum vulgare), bean (Phaseolus vulgaris), tomato (Solanum lycopersicum), and ricinus (Ricinus communis). We used three levels of treatment (150, 300, and 600 ppm) and one control. At the end of the biological cycle of the crops, the different parts of plants, i.e., roots, stems, leaves, fruits, or seeds, were separately collected, oven dried, weighed, milled, and separately analysed. The leaves and stems of spinach showed a very good nickel storage capacity. The ricinus too proved to be a very good nickel storer. The ability of spinach and ricinus to store nickel was observed also in the leaves of cabbage, even if with a lower storage capacity. The bean, barley, and tomato, in decreasing order of uptake and storage capacity, showed a high concentration of nickel in leaves and stems, whereas the sorghum evidenced a lesser capacity to uptake and store nickel in leaves and stems. The bean was the most efficient in storing nickel in fruits or grains. Tomato, sorghum, and barley have shown a storage capacity notably less than bean. The bean appeared to be the most efficient in accumulating nickel in the roots, followed in decreasing order by sorghum, ricinus, and tomato. With regard to the removal of nickel, spinach was the most efficient as it contains the highest level of this metal per gram of dry matter. The ricinus, cabbage, bean, sorghum, barley, and tomato evidenced a progressively decreasing efficiency in the removal of nickel.     

微量钴 镍的导数催化极谱连续法测定

在氢氧化铵、氯化铵、磺基水杨酸,丁二酮肟及聚乙烯醇介质中,以导数催化极谱连续法测定了人发、胃组织及食品等样品中的微量钴和镍,方法的线性范围为4～1000μg/l,检测限为2μg/l     

国外化学镀镍老化液处理现状

介绍了国外目前应用的化学镀镍老化液处理方法，着重推荐了沉淀法、电解法、离于交换法和电渗析法     

化学镀镍老化液资源化处理工艺的研究

利用三步法综合处理化学镀镍老化液。以多孔性泡沫镍作为阴极、Ti RuO2 作为阳极 ,电解回收化学镀镍老化液中的金属镍离子 ,镍的回收率可以达到 97.5 % ,同时废液中总有机碳去除率达到 97.3 % ;再以 15 %石灰乳作沉淀剂 ,每克镍投加量为 6.5mL时进一步将溶液中的残余镍处理至排放标准以下 ;最后以Ca(ClO) 2 作为氧化沉淀剂 ,处理剩余溶液中的磷 ,排放水中总磷浓度达到 1.0 6mg L ,沉淀中镍的含量低于 1.4mg kg ,以P2 O5计的磷含量高达 67.3 % ,符合农用污泥污染物控制指标 ,可以作为农业肥料使用。实验结果表明 ,利用以上方法处理 ,可以有效地将老化液中的镍、磷处理至排放标准以下 ,同时溶液中的大量有机物得到去除 ,化学镀镍老化液中的有用资源得到回收利用     

共沉淀富集原子吸收法测定水中5种重金属元素

使用有机共沉淀剂DDTC钠盐（铜试剂）。La^3＋作载体离子富集和乙炔火焰原子吸收分光光度法测定监测井水中Cu,Ni,Zn,Pb和Cd,结果表明，该方法精密度较高、结果准确，回收率满足微量元素测定要求,适用于达标排放水，监测井水中常见污染指标元素Cu,Ni，Zn,Pb和Cd的测定。     

木屑黄原酸酯的合成及其在处理含镍废水中的应用

采用木屑黄原酸酯(SCX)对含镍(Ni)废水进行试验研究，考察了SCX酯剂对Ni^2 的吸附性能以及药剂用量、进水的浓度，pH值和反应时间等条件对其吸附效果的影响。结果发现，木屑黄原酸酯对Ni2^2 附性能较好，经其处理后的水质可达国家有关排放标准。残渣稳定，也可酸液浸取回收重金属。     

化学镀镍老化液中镍、磷的处理与回收

以 Ca(OH) 2 作为沉淀剂 ,调节溶液 p H =1 2 ,在 80℃条件下反应 1 h,使化学镀镍老化液中镍浓度降到1 / mg· L- 1 ;分离沉淀后的溶液用硫酸调节 p H=8,按 Ca(Cl O) 2 与总 P重量比为 3 .5∶ 1 .0的比例加入 Ca(Cl O) 2 ,老化液中的磷酸盐通过形成沉淀得到去除 ,从而使化学镀镍老化液中的镍、磷含量均达到国家排放标准。对于含 Ni(OH) 2 的沉淀 ,以稀硫酸溶解回收其中的镍 ,剩余沉渣建议填埋处理 ;磷酸盐沉淀可以作为磷肥资源回用于农业生产。     

Testing nickel tolerance of Sorghastrum nutans and its associated soil microbial community from serpentine and prairie soils

Ecotypes of Sorghastrum nutans from a naturally metalliferous serpentine grassland and the tallgrass prairie were assessed for Ni tolerance and their utility in remediation of Ni-polluted soils. Plants were inoculated with serpentine arbuscular mycorrhizal (AM) root inoculum or whole soil microbial communities, originating from either prairie or serpentine, to test their effects on plant performance in the presence of Ni. Serpentine plants had marginally higher Ni tolerance as indicated by higher survival. Ni reduced plant biomass and AM root colonization for both ecotypes. The serpentine AM fungi and whole microbial community treatments decreased plant biomass relative to uninoculated plants, while the prairie microbial community had no effect. Differences in how the soil communities affect plant performance were not reflected in patterns of root colonization by AM fungi. Thus, serpentine plants may be suited for reclamation of Ni-polluted soils, but AM fungi that occur on serpentine do not improve Ni tolerance.     

Transfer of elements relevant to radioactive waste from soil to five boreal plant species

In long-term safety assessment models for radioactive waste disposal, uptake of radionuclides by plants is an important process with possible adverse effects in ecosystems. Cobalt-60, ^59,63Ni, ⁹³Mo, and ²¹⁰Pb are examples of long-living radionuclides present in nuclear waste. The soil-to-plant transfer of stable cobalt, nickel, molybdenum and lead and their distribution across plant parts were investigated in blueberry (Vaccinium myrtillus), May lily (Maianthemum bifolium), narrow buckler fern (Dryopteris carthusiana), rowan (Sorbus aucuparia) and Norway spruce (Picea abies) at two boreal forest sites in Eastern Finland. The concentrations of all of the studied elements were higher in roots than in above-ground plant parts showing that different concentration ratios (CR values) are needed for modelling the transfer to roots and stems/leaves. Some significant differences in CR values were found in comparisons of different plant species and of the same species grown at different sites. However, large within-species variation suggests that it is not justified to use different CR values for modelling soil-to-plant transfer of these elements in the different boreal forest plant species.