亚氨基二琥珀酸修复重金属污染土壤及环境风险削减评估

以亚氨基二琥珀酸（ISA）为洗脱剂,考察ISA投加量、洗脱液pH值、反应时间和土液比对Cd、Pb和Zn去除率影响,通过Box-Behnken多因素设计法优化最佳洗脱条件,并采用涵盖土壤重金属残留量、浸出浓度和毒性的综合环境风险法评估修复效果.结果表明,ISA对Cd、Pb和Zn去除率随其浓度增加而增加;ISA浓度为50mmol/L时,对矿山污染土壤中Cd、Pb和Zn去除率达到11.83%、34.26%和20.96%;对污染农田土壤中Cd、Pb和Zn去除率达到48.89%、57.08%和81.80%.增加反应时间和洗脱液酸性有助于提高ISA对Cd、Pb和Zn去除率.随土液比减低,Cd、Pb和Zn去除率呈上升趋势.ISA去除Cd、Pb和Zn最佳条件为：ISA浓度70mmol/L、洗脱液pH4.0和反应时间120min,预测矿山土壤和污染农田土壤中Cd、Pb和Zn总去除率最大分别为32.58%和93.16%.ISA大幅度降低水溶态、可交换态和碳酸盐结合态Cd、Pb和Zn残留量,从而削减矿山土壤和污染农田土壤中Cd、Pb和Zn总环境风险达50.81%和87.13%.亚氨基二琥珀酸可有效去除污染土壤中重金属并降低残留重金属的环境风险,是一种潜在材料可用于土壤重金属污染修复.     

一种多磺酸基多胺基表面活性剂的制备过程改进及性能表征

目前工业上应用的氨基磺酸类两性表面活性剂只带有一个有活性的磺酸基,表面活性较低。本文针对一种多氨基多磺酸基类表面活性剂的合成工艺进行改进,制备出白色粉末状固体的两性表面活性剂,该表面活性剂适合作乳化剂,其临界胶束浓度值为34.35 mmol/L。     

乙烯撑二氨基苯磺酸生产中磺化废酸的处理

对乙烯撑二氨基苯磺酸生产过程中产生的磺化废酸采用浓缩法进行处理,得到的浓硫酸顺生产中使用。废酸浓缩装置的工艺简单,投资少,建设周期短,运行平稳,１年内即可收回投资,经济效益显著。该装置的建成投产,大大改善了周围环境,具有明显的环境效益。     

挥发酚测定方法的改进

对测定挥发酚的试剂4-氨基安替比林溶液进行萃取后，降低了空白试验，并对方法的准确度和精密度进行了验证，说明此方法可靠，在日常的样品监测中可行．     

二氧化硫对大气中酚测定的干扰及干扰排除的研究

文章探讨了二氧化硫对大气(污染源和环境)中酚测定的干扰程度以及通过预蒸馏消除干扰，得到准确的测定结果。在实际大气样品测试中，测定结果的准确度和精密度都较高。     

复合型氨基葡聚糖絮凝剂的实验研究

报道了复合型氨基葡聚糖絮凝剂对于重金属离子去除效果的测定，以及为减小出水质的浊度而改用黄泥做为腐植酸钠载体的改性实验。当pH值为8、投加量为1．2g．L^-1时，该絮凝剂不仅对单个金属离子：Cu^2 、Zn^2 、Ni^2 、Cr^3 、Cd^2 去除率高达90％以上，而且对于这些离子的混合废水的去除率均在94％以上。     

5－Br－PADAP分光光度法测定雨水中微量过氧化氢

提出了一种光度法测定雨水中微量过氧化氢的方法。在０．３～１．３ｍｏｌ／Ｌ磷酸介质中，过氧化氢与钒（Ｖ）及２－（５－溴－２－吡啶偶氮）－５－二乙氨基苯酚（５－Ｂｒ－ＰＡＤＡＰ）反应形成一种组成比为１：１：１的蓝色三元配合物，其最大吸收波长位于５９６ｎｍ，表观摩尔吸光系数为５．５×１０４Ｌ·ｍｏｌ（－１）·ｃｍ（－１）．过氧化氢在０．０７～４．１μｇ／１０ｍｌ范围内服从比耳定律。该方法简便，具有较高的选择性和灵敏度．用于雨水中微量过氧化氢的直接测定．结果令人满意。     

Effect of cerium on photosynthetic characteristics of soybean seedling exposed to supplementary ultraviolet-B radiation

Effects of cerium （Ce^3＋） on photosynthetic characteristics were investigated by hydroponics under laboratory conditions when soybean seedlings were exposed to two levels of supplementary UV-B radiation. UV-B radiation badly inhibited the photosynthesis in soybean seedling, leading to a reduction in net photosynthetic rate （Pn）, Hill reaction activity, light saturated photosynthetic rate （Ps） and apparent quanta yield （AQY）, as well as the CO2 and light saturated photosynthetic rate （Pro） and carboxulation efficiency （CE）. On the contrary, Ce obviously promoted the photosynthesis of plants by increasing Hill reaction activity, accelerating electron transport and photophosphorylation, and enhancing carboxylation efficiency. For Ce＋UV-B treatments, the values of photosynthetic parameters were still lower than those of the control, but obviously higher than those of UV-B treatment. The results indicated that Ce alleviated the inhibition of UV-B radiation on the photosynthesis in soybean seedling to a certain extent. In correlating of Pn with Hill activity, AQY and CE, we found that the changes of photosynthetic rate were mainly influenced by the regulating effect of Ce on Hill activity and AQY at low level （0.15 W/m^2） of UV-B radiation, but were dominated by the regulating effect of Ce on CE at high level （0.45 W/m^2）. Thus, Ce could regulate many aspects in photosynthesis of soybean seedling under UV-B stress. The regulating mechanism was close related with the dosage of UV-B radiation.