硝基苯精馏再沸器安全分析与评估

为了明确硝基苯精馏再沸器装置爆炸事故发生的原因,有针对性的采取预防措施,综合运用英国帝国化学工业公司的IC I蒙德评价法和事故树分析（FTA）法对精馏再沸器进行安全分析研究,确定了该装置生产过程中的物料物质系数,计算相关的物质危险性、工艺危险性和毒性指数,经过安全措施补偿系数修正后,得出了硝基苯精馏再沸器总危险性系数和危险等级;定性地分析了各危险因素的大小;定量地得出装置的危险程度,并提出了安全措施。结果表明,该装置的危险等级属中等,高温下漏入空气、阀门失效和法兰密封不严是导致该事故的3个最主要的原因,因此,应从以上几方面采取措施,加强安全生产管理。控制精馏再沸器的加热温度,防止局部积累热量,从而降低危险等级,确保安全生产。     

纳米Fe_2O_3在处理含铬(Ⅵ)废水中的应用

采用较简单的方法合成了光催化活性较低、吸附性能较好的纳米Fe2O3,研究其对Cr(Ⅵ)的吸附行为并进行了相应的比较,结果表明,纳米金属氧化物Fe2O3对Cr(Ⅵ)的吸附酸度较宽,吸附效率较高,吸附时间短,吸附Cr(Ⅵ)后的纳米金属物用2.0mol/NaOH洗脱处理后均可重复使用,应用于环境水样中Cr(Ⅵ)的处理,效果很好。     

金属薄板抗7.62mm普通弹枪击性能的实验研究

目的 评估覆钢板复杂结构的抗枪击性能,开展薄钢板抗枪击性能研究.方法 采用56式步枪人工发射方式,分别开展4、8 mm厚06Cr19Ni10单层钢板与8、16 mm厚30CrMoA单层钢板以及06Cr19Ni10与30CrMoA(4 mm+8 mm与8 mm+8 mm两种厚度组合)双层钢板抗7.62 mm普通弹的枪击试...     

机械法制备角蛋白膜及其对Cr(Ⅵ)的吸附

利用机械法在添加甘油作增塑剂的条件下制备角蛋白膜,研究了温度和甘油添加量对膜的机械性能的影响,研究了最佳制备条件下160℃、甘油添加量40%的角蛋白膜对Cr(Ⅵ)的吸附性能,吸附结果符合Langmuir型和Freundlich型等温吸附模型,吸附过程为吸热过程,物理和化学吸附共同作用,以物理吸附为主,在60℃下最大去除率为99.07%,最大吸附量为75.498mg/g。     

海藻酸钠固定化Fe-Cu双金属去除Cr(Ⅵ)的作用机制

通过运用海藻酸钠(SA)固定化Fe-Cu双金属(SAB)来克服Fe0-PRB利用率低、易板结、堵塞的缺陷.结果表明,SA和Fe-Cu双金属的运用能极大地提高Fe0的利用率,SA的运用可以使Fe-Cu双金属以较低的镀铜量获得较高的Cr(Ⅵ)去除率,SAB镀铜0.9%(SAB0.9)为最佳的填料.FEI电镜扫描结果表明,SA跟2价金属阳离子Ca2+交联形成孔隙结构,为双金属的附着提供了大量的吸附点位,增大了金属颗粒的比表面积;场发射扫描电子显微镜(FESEM)及X-射线光电子能谱(XPS)结果表明,Cu负载于Fe0表面,呈疏松层状结构,在Fe0与Cr(Ⅵ)反应中起催化剂作用,通过自身化合态变化传递Fe0失去的电子,从而提高了Fe0的利用率.渗透系数实验结果表明,SAB0.9能控制Fe0与Cr(Ⅵ)反应产物的释放,缓解Fe0-PRB易板结、堵塞的缺陷.     

Low-temperature plasma induced phosphate groups onto coffee residue-derived porous carbon for efficient U(VI) extraction

For the continuous utilization of nuclear energy and efficient control of radioactive pollution, low-cost materials with high efficient U(VI) removal are of great importance. In this study, low temperature plasma method was applied for the successful modification of O-phosphorylethanolamine (O-PEA) on the porous carbon materials. The produced materials (Cafe/O-PEA) could adsorb U(VI) efficiently with the maximum sorption capacity of 648.54 mg/g at 1 hr, T=298 K, and pH=6.0, much higher than those of most carbon-based composites. U(VI) sorption was mainly controlled by strong surface complexation. From FTIR, SEM-EDS and XPS analyses, the sorption of U(VI) was related to the complexation with -NH₂, phosphate and -OH groups on Cafe/O-PEA. The low temperature plasma method was an efficient, environmentally friendly and low-cost method for surface modification of materials for the effective enrichment of U(VI) from aqueous solutions.     

Biosorption of Cr（VI） by carbonized Eupatorium adenophorum and Buckwheat straw： thermodynamics and mechanism

High quality and low cost carbon can be prepared from Eupatorium adenophorum （E. adenophorum） and Buckwheat straw. The biosorbent was used for Cr（VI） removal. The effect of experimental parameters, such as pH, sorbent dosage and temperature were examined and the optimal experimental condition was determned. Solution pH is found influencing the adsorp- tion. Cr（VI） removal efficiency is found to be maximum （98%） at pH= 1. Langmuir and Freundlich adsorption isotherms were applicable to the adsorption process and their constants were evaluated. The adsorption data obtained agreed well with the Langmuir sorption isotherm model. The maximum adsorption capacities for Cr（VI） ranged from 46.23 to 55.19mg.g^-1 for temperature between 298 K and 308 K under the condition of pH = 1.0. Thermodynamic parameters such as free energy change （AG）, enthalpy （AH） and entropy （AS） indicate a spontaneous, endothermic and increased randomness nature of Cr（VI） adsorption. Studies found that the raw E. adenophorum and buckwheat straw mixed materials with simple treatment had a high efficiency for the removal of Cr（VI） and would be a promising adsorbent.     

Combined biologic aerated filter and sulfur/ceramisite autotrophic denitrification for advanced wastewater nitrogen removal at low temperatures

An innovative advanced wastewater treatment process combining biologic aerated filter （BAF） and sulfur/ ceramisite-based autotrophic denitrification （SCAD） for reliable removal of nitrogen was proposed in this paper. In SCAD reactor, ceramisite was used as filter and Ca （HCO3）2 was used for supplying alkalinity and carbon source. The BAF-SCAD was used to treat the secondary treatment effluent. The performance of this process was investigated, and the impact of temperature on nitrogen removal was studied. Results showed that the combined system was effective in nitrogen removal even at low temperatures （8℃）. Removal of total nitrogen （TN）, NH4＋ -N, NO3-N reached above 90% at room temperature. Nitrification was affected by the temperature and nitrification at low temperature （8℃） was a limiting factor for TN removal. However, denitrification was not impacted by the temperature and the removal of NO3 -N maintained 98% during the experimental period. The reason of effective denitrification at low temperature might be the use of easily dissolved Ca（HCO3）2 and high-flux ceramisite, which solved the problem of low mass transfer efficiency at low temperatures. Besides, vast surface area of sulfur with diameter of 2-6 mm enhanced the rate of microbial utilization. The removal of nitrate companied with the production of SO42-, and the average concentration of SO27 was about 240mg.L^-1. These findings would be beneficial for the application of this process to nitrogen removal especially in the winter and cold regions.     

Electrochemical oxidation of humic acid at the antimony- and nickel-doped tin oxide electrode

This work investigated the degradation of humic acid （HA） in aqueous solution by electrochemical oxidation with Antimony- and Nickel-doped Tin oxide electrode （Ni-Sb-SnO2/Ti electrode） as the anode. Initial concentrations of HA ranged from 3 to 9 mg-L 1. Under such a concentration scope, the degradation of HA was a mass transfer controlled process. Degradation rate increased with the increase of HA initial concentration. Test on the effect of tert-butanol revealed that · OH played an important role in the oxidation of HA. The absence of cation Ca2＋ was beneficial to HA degradation, which suggested that both indirect and direct electrolyze happened during the whole electrochemical oxidation process. Alkaly （pH = 12） and neutral （pH = 7） conditions were benefical to HA degradation.     

Simultaneous quantification of several classes of antibiotics in water,sediments, and fish muscles by liquid chromatography-tandem mass spectrometry

Precise and sensitive methods for the simultaneous determination of different classes of antibiotics, including sulphonamides, fluoroquinolones, macrolides, tetracyclines, and trimethoprim in surface water, sediments, and fish muscles were developed. In water samples, drugs were extracted with solid-phase extraction （SPE） by passing 1000 mL of water through hydrophilic lipophilic balanced （HLB） SPE cartridges. Sediment samples were solvent-extracted, followed by tandem SPE （strong anion exchange （SAX） ＋ HLB） clean-ups. Fish muscles were extracted by a mixture of acetonitrile and citric buffer （80：20, v/v） solution, and cleaned by SPE. Liquid chromatography-tandem mass spectrometry （LC-MS/ MS） with multiple reaction monitoring （MRM） detection was employed to quantify all compounds. The recoveries for the antibiotics in the spiked water, sediment, and fish samples were 60.2%-95.8%, 48.1%-105.3%, and 59.8%- 103.4%, respectively. The methods were applied to samples taken from Dianchi Lake, China. It showed that concentrations of the detected antibiotics ranged from limits of quantification （LOQ） to 713.6 ng- L1 （ofloxacin） in surface water and from less than LOQ to 344.8 μg·kg-1 （sulphamethoxazole） in sediments. The number of detected antibiotics and the overall antibiotic concentrations were higher in the urban area than the rural area, indicating the probable role of livestock and human activities as important sources of antibiotic contamination. In fish muscles, the concentration of norfioxacin was the highest （up to 38.5 μg·kg-1）, but tetracyclines and macrolides were relatively low. Results showed that the methods were rapid and sensitive, and capable of determining several classes of antibiotics from each of the water, sediment, and fish matrices in a single run.