柱色谱法批量分离N-甲基-2-(3-硝基苯基)吡咯烷[3’,4’:1,2][60]富勒烯研究

经C60、N-甲基甘氨酸和间硝基苯甲醛反应得到N-甲基-2-(3-硝基苯基)吡咯烷[3′,4′∶1,2][60]富勒烯(MNPF)反应液,旋转蒸发干燥得质量分数为23%的MNPF粗品,采用柱色谱法批量分离其中的MNPF。确定了柱色谱法批量分离MNPF的最佳工艺条件:二硫化碳为流动相,柱层析用硅胶(37~48μm)为固定相,色谱柱直径5cm,高径比为6∶1,最大上样量为23 g。此时分离所得MNPF纯度达99%,回收率为92.3%。     

垃圾风选设备结构优化数值模拟

我国城市生活垃圾处理塑料分选技术尚处于起步阶段，设备分选效率低是目前影响该技术应用的核心问题．另外能耗偏大也是影响其广泛应用的重要原因。本文以流体力学基本原理为基础，将传统直筒立式风选设备改为折线形，应用流体模拟软件FLUENT对其结构进行了模拟优化设计。     

钢渣资源化利用技术现况和探讨

介绍了目前我国钢渣预处理工艺和尾渣资源化利用的主要方法,并对钢渣的资源化利用发展进行了探讨。我国钢渣的资源化利用主要受到地域、钢渣性质以及市场3方面因素的限制。建议大力推广钢渣有压热闷等先进钢渣预处理技术,使钢渣处理更加高效、环保。钢渣尾渣用于制备胶凝材料和道路建设是大批量消纳钢渣的可行方法,应争取政府和财政的支持,推动跨行业的合作,促进钢渣的资源化利用。     

附加超声场强化膜滤过程研究现状

国内外超声场强化膜分离的研究日益增加,本文介绍了附加超声场强化膜滤过程的原理,以及超声强化膜滤过程的两种理论模型。阐述了影响超声辅助膜工艺处理效果的因素,主要有超声频率、超声场强、溶液性质、错流速度、温度、操作压力和超声作用方式等。介绍了超声强化膜滤研究中采用的新技术,主要有SEM和声致荧光法。最后列举了超声与几种其他工艺联合使用强化膜处理的工艺,如超声-电场、超声-活性炭、超声-MBR工艺等。     

Process safety aspects in water-gas-shift (WGS) membrane reactors used for pure hydrogen production

The syngas produced by coal gasification processes can be utilized in Pd-based water-gas-shift membrane reactors for the production of pure H₂. Pd/alloy composite membrane reactors exhibit comparative advantages over traditional packed bed reactors such as simultaneous reaction/separation in one compact unit and increased reaction yields. Furthermore, the development of comprehensive process intensification strategies could further enhance membrane reactor performance resulting in a substantially smaller and functional, inherently safer, environmentally friendlier and more energy efficient process.A systematic non-isothermal modeling framework under both steady state and dynamic/transient conditions for a catalytic high temperature water-gas shift reaction in a Pd-based membrane reactor has been developed to characterize the dynamic behavior of the process system at various operating conditions from a process safety standpoint. In particular, various reaction conditions as well as key process variables such as feed temperature and flow rate, catalyst loading, driving force for H₂ permeation are considered as they are critically related to various safety aspects in the operation of a Pd-based membrane reactor. Within the proposed framework, process parameters and operating conditions which may induce hazards and compromise process safety are identified, analyzed and characterized. Finally, the proposed approach is evaluated through detailed simulation studies in an illustrative case study involving a real Pd-based membrane reactor used for pure hydrogen production and separation that exhibits complex behavior over a wide operating regime.     

Synergistic impacts of anthropogenic and biogenic emissions on summer surface O3 in East Asia

A factor separation technique and an improved regional air quality model (RAQM) were applied to calculate synergistic contributions of anthropogenic volatile organic compounds (AVOCs),biogenic volatile organic compounds (BVOCs) and nitrogen oxides (NOx) to daily maximum surface O3(O3DM) concentrations in East Asia in summer (June to August 2000).The summer averaged synergistic impacts of AVOCs and NOx are dominant in most areas of North China,with a maximum of 60 ppbv,while those of BVOCs and NOx are notable only in some limited areas with high BVOC emissions in South China,with a maximum of 25 ppbv.This result implies that BVOCs contribute much less to summer averaged O3DM concentrations than AVOCs in most areas of East Asia at a coarse spatial resolution (1×1) although global emissions of BVOCs are much greater than those of AVOCs.Daily maximum total contributions of BVOCs can approach 20 ppbv in North China,but they can reach 40 ppbv in South China,approaching or exceeding those in some developed countries in Europe and North America.BVOC emissions in such special areas should be considered when O3 control measures are taken.Synergistic contributions among AVOCs,BVOCs and NOx significantly enhance O3 concentrations in the Beijing-Tianjin-Tangshan region and decrease them in some areas in South China.Thus,the total contributions of BVOCs to O3DM vary significantly from day to day and from location to location.This result suggests that O3 control measures obtained from episodic studies could be limited for long-term applications.     

含油污泥处理现状及新型工艺探讨

针对含油污泥处理现状,分析国内外处理含油污泥方法上存在的问题,提出超声波技术和调质-机械分离技术结合处理含油污泥的新方法。     

多孔不锈钢基氧化铝膜去除水溶液中的Cr(VI)和Cd(II)

通过悬浮粒子浸涂法将合成的γ-Al₂O₃纳米粒子固载于316L多孔不锈钢表面以吸附水溶液中的Cr（VI）和Cd（Ⅱ）.扫描电镜（SEM）和X射线衍射（XRD）测试结果表明,γ相的Al₂O₃纳米粒子均匀地涂在了316L多孔不锈钢基体上,膜体表面沉积厚度约为20 μm.该膜对单一Cr（VI）和Cd（Ⅱ）吸附的最佳pH分别为3.0~4.0和8.0~9.0,吸附均符合动力学准二级模型和Langmuir吸附等温模型,最大吸附量分别为0.603 mg·g^-1和0.399 mg·g^-1.本研究可为水体中的高毒性重金属Cr（VI）和Cd（Ⅱ）去除提供一定的理论和技术参考.     

A nanocomposite consisting of silica-coated magnetite and phenyl-functionalized graphene oxide for extraction of polycyclic aromatic hydrocarbon from aqueous matrices

In this study,graphene oxide was covalently immobilized on silica-coated magnetite and then modified with 2-phenylethylamine to give a nanocomposite of type Fe_3O_4@SiO_2@GO-PEA that can be applied to the magnetic solid-phase extraction of polycyclic aromatic hydrocarbons(PAHs) from water samples.The resulting microspheres(Fe_3O_4@SiO_2@GO-PEA) were characterized by Fourier transform-infrared spectroscopy(FT-IR),scanning electron microscopy(SEM),CHNS elemental analysis,and vibrating sample magnetometry(VSM) techniques.The adsorbent possesses the magnetic properties of Fe_3O_4 nanoparticles that allow them easily to be separated by an external magnetic field.They also have the high specific surface area of graphene oxide which improves adsorption capacity.Desorption conditions,extraction time,amount of adsorbent,salt concentration,and pH were investigated and optimized.Following desorption,the PAHs were quantified by gas chromatography with flame ionization detection(GC-FID).The limits of detection(at an S/N ratio of 3) were achieved from 0.005 to0.1 μg/L with regression coefficients(R~2) higher than 0.9954.The relative standard deviations(RSDs) were below 5.8%(intraday) and 6.2%(inter-day),respectively.The method was successfully applied to the analysis of PAHs in environmental water samples where it showed recoveries in the range between 71.7%and 106.7%(with RSDs of 1.6%to 8.4%,for n = 3).The results indicated that the Fe_3O_4@SiO_2@GO-PEA microspheres had a great promise to extraction of PAHs from different water samples.     

Challenges in characterization of nanoplastics in the environment

Plastic pollution has been a legacy environment problems and more recently, the plastic particles, especially those ultrafine or small plastics particles, are widely recognized with increasing environmental and ecological impacts. Among small plastics, microplastics are intensively studied, whereas the physicochemical properties, environmental abundance, chemical states, bioavailability and toxicity toward organisms of nanoplastics are inadequately investigated. There are substantial difficulties in separation, visualization and chemical identification of nanoplastics due to their small sizes, relatively low concentrations and interferences from co-existing substances (e.g., dyes or natural organic matters). Moreover, detection of polymers at nanoscale is largely hampered by the detection limit or sensitivity for existing spectral techniques such as Transformed Infrared Spectroscopy (FTIR) or Raman Spectroscopy. This article critically examined the current state of art techniques that are exclusively reported for nanoplastic characterization in environmental samples. Based on their operation principles, potential applications and limitations of these analytical techniques are carefully analyzed.