锰掺杂WO3-TiO2复合光催化剂的制备及其性能研究

溶胶-凝胶和浸渍相结合的方法制备锰掺杂WO3-TiO2复合光催化剂,RXD表征,考察WO3和Mn2 掺入量、焙烧温度、焙烧时间及催化剂用量对光催化降解甲基橙的影响.结果表明,500℃焙烧2 h,掺杂量n(Mn2 )∶n(wo3)∶n(TiO2)=0.8∶1∶100时,光催化活性最高,光催化降解甲基橙溶液,120 min后,降解率达90%,比单纯TiO2的光催化活性提高81%.     

负载型TiO2膜太阳光光催化降解活性深蓝K-R的研究

采用抛物线槽型反应装置,研究了玻璃弹簧和微珠负载型TiO2膜太阳光催化降解活性深蓝K-R,结果表明,由于玻璃弹簧具有良好的光透距离,脱色性能显著优于玻璃微珠,玻璃弹簧为载体,水溶液浓度为15 mg/L,pH为3,流速为20 mL/s,太阳光强度在1200 μW/cm2以上,光降解6 h时,脱色率达到96%;该降解反应可用一级反应动力学方程进行描述,反应速率常数(K)与光强I的关系为:K∝I1.92.     

米糠生物质解毒含铬(Ⅵ)水溶液的研究

农林生物质是一种成本低、环境友好的重金属废水处理材料,也是受重金属污染环境的修复材料之一.实验讨论了初始pH值、米糠用量、吸附时间对含铬(Ⅵ)水溶液解毒的影响.结果表明,米糠对Cr(Ⅵ)存在吸附作用,同时也有解毒还原能力.100 mL浓度为100 mg/L的含铬溶液,在初始pH为2、米糠用量为3 g、吸附-反应平衡时间7 h的条件下,生物质吸附去除溶液中的铬为14.4%,而原溶液中Cr(Ⅵ)解毒了57.2%,米糠生物质吸附总铬的能力为0.48 mg Cr/g(生物质).米糠生物质有潜在的吸附铬和修复受铬污染环境的利用价值.     

FeCl3改性MOFs在低温下对Hg0的吸附性能

为提高吸附剂对Hg0（零价汞）的吸附效率,利用MOFs（金属有机框架）材料发达的孔隙结构和高比表面积（1 997.010 0 m2/g）,采用FeCl₃溶液浸渍改性,制备了吸附剂FeCl₃@MIL-101（Cr）用于脱除Hg0.在小型固定床反应器上考察了浸渍浓度、反应温度、氧含量等对Hg0去除的影响.结果表明:FeCl₃@MIL-101（Cr）在进口ρ（Hg0）为2×10-3 mg/L,c（FeCl₃）为0.2 mol/L,反应温度60℃,气体流速400 mL/min,φ（O₂）为1%的条件下,吸附穿透时间长达62 h,相应的吸附容量为14.27 mg/g.在此基础上,进一步利用BET（比表面积测试）、SEM（扫描电镜）-EDX（能量色散X射线光谱）、XRD（X射线衍射）、XPS（X射线光电子能谱）等常用表征手段研究了改性前后吸附剂的物理化学特性,证明了吸附剂FeCl₃@MIL-101（Cr）吸附零价汞是物理吸附与化学吸附共同作用的结果,含氯官能团在吸附Hg0过程中也发挥了相当大的作用,并且氧气可促进其吸附效果.最后,分析了其吸附机理.研究显示,该种吸附剂在低温条件下具有较为优良的脱汞性能,应用前景良好.      

Heavy metal removal from aqueous solution using carbonaceous K2S-impregnated adsorbent

A novel carbonaceous adsorbent for heavy metal removal was prepared from raw coal by one-step simple sulfur impregnation using K2S. Raw coal was mixed with K2S powder and then heated at 800°C for 30 min in nitrogen to produce K2S char. The sulfur content and form in K2S char were determined, and the ability of K2S char to adsorb Zn2+, Cd2+ and Pb2+ was examined. The K2S impregnation was e ective at impregnating sulfur into coal, especially in the form of elemental, thiophenic and sulfatic sulfur. The sulfur content of K2S char was higher than those of raw coal and pyrolysis char. The Zn2+ removal in 2.4 mmol/L of Zn2+ solution by K2S char was higher than raw coal with the removal rate of 100%. K2S char adsorbed Pb2+ and Cd2+ in 24 mmol/L of Pb2+ and Cd2+ solution with the removal rate of 97% and 35%, respectively. The elution extents of adsorbed Pb2+ and Cd2+ were zero in distilled water and 27% in 0.1 mol/L HCl solution. These results indicated that an e ective adsorbent for heavy metal ions was prepared from coal using K2S sulfur impregnation, and that the adsorbed metals were strongly retained in K2S char.     

Influence of Indian mustard （Brassicajuncea） on rhizosphere soil solution chemistry in long-term contaminated soils： A rhizobox study

This study investigated the influence of Indian mustard (Brassica juncea) root exudation on soil solution properties (pH, dissolved organic carbon (DOC), metal solubility) in the rhizosphere using a rhizobox. Measurement was conducted following the cultivation of Indian mustard in the rhizobox filled four di erent types of heavy metal contaminated soils (two alkaline soils and two acidic soils). The growth of Indian mustard resulted in a significant increase (by 0.6 pH units) in rhizosphere soil solution pH of acidic soils and only a slight increase (< 0.1 pH units) in alkaline soils. Furthermore, the DOC concentration increased by 17–156 mg/L in the rhizosphere regardless of soil type and the extent of contamination, demonstrating the exudation of DOC from root. Ion chromatographic determination showed a marked increase in the total dissolved organic acids (OAs) in rhizosphere. While root exudates were observed in all soils, the amount of DOC and OAs in soil solution varied considerably amongst di erent soils, resulting in significant changes to soil solution metals in the rhizosphere. For example, the soil solution Cd, Cu, Pb, and Zn concentrations increased in the rhizosphere of alkaline soils compared to bulk soil following plant cultivation. In contrast, the soluble concentrations of Cd, Pb, and Zn in acidic soils decreased in rhizosphere soil when compared to bulk soils. Besides the influence of pH and DOC on metal solubility, the increase of heavy metal concentration having high stability constant such as Cu and Pb resulted in a release of Cd and Zn from solid phase to liquid phase.     

机场环境下飞机LY12CZ结构腐蚀损伤预测方法研究

依据LY1 2CZ材料的EXCO溶液浸泡加速腐蚀试验数据、飞机LY 12CZ构件在机场环境下的真实腐蚀损伤数据以及腐蚀损伤等效原则和当量关系原理,获得了该材料在2种环境下腐蚀的当量因子均值(α) =0.023 6,构建了LY12CZ材料于EXCO溶液中浸泡腐蚀的神经网络腐蚀深度预测模型.在此基础上提出了利用所建的神经网...     

冬季谨防静电危害

<正>进入冬季天气干燥,静电更易于积聚。冬天比其他三个季节发生的静电事故机率更大,安全工作不容忽视。在企业日常安全管理中,要对此项工作高度重视,勤于检查,避免因为静电因素导致事故的发生。以前企业在防静电工作中把工作重心放在可燃液体快速流动环节的防静电上,忽视了慢速流动可燃液体的防静电工作,导致事故给人深刻的。某私营化工厂从二楼用塑料管向楼底的塑料大桶中放甲苯溶液,该企业职工使用塑料管时未采取任何防静电措施。事故就在这时发生了,由于静电放电产生火花引燃甲苯,导致火灾的发生。的教训     

土壤溶液性质对Zn的形态变化及其微生物毒性的影响

采集了我国具有代表性的12种不同性质土壤,利用基础诱导硝化(SIN)方法测定了不同土壤中锌的微生物毒性阈值,同时利用850离子色谱仪与WHAM6.0模型,测定了溶液不同阴离子组成及自由Zn2+含量,建立了基于不同土壤性质与溶液离子的土壤中Zn毒性预测模型.结果表明,基于SIN测定的不同土壤Zn微生物毒性阈值在不同土壤间有显著差异,其中EC50从196mg/kg至1310mg/kg;EC10值从48mg/kg增加至682mg/kg,不同土壤EC50与EC10的最大值与最小值的比例分别达到了6.68及14.3倍,表明土壤性质对Zn的微生物毒性有非常显著的影响;基于SIN的Zn的毒性阈值ECx(x=10,50)与溶液自由Zn2+浓度的负对数p(Zn2+)间呈正相关关系,表明随着土壤溶液中自由Zn2+值的升高,Zn的毒性逐渐增加.土壤pH值、OC、CEC、F-、Cl-、Ca2+及Mg2+与Zn的毒性阈值ECx(x=10,50)及p(Zn2+)呈正相关关系,其中土壤pH值为最重要的影响因子,偏相关系数均达到极显著水平(P<0.01),其次为OC、CEC及F-,ECx与溶液中NO3-, SO42-呈负相关关系.基于不同主控因子的土壤中Zn毒性阈值(ECx)及P(Zn2+)的预测模型表明,pH值、OC、CEC、F- 四个变量因子分别解释了log(EC50)、log(EC10)及p(Zn2+)预测模型变异的89.9%、81.2%和92.3%.