离子液体吸收CO_2的研究进展

综述了近年来离子液体吸收转化CO_2的研究进展。介绍了咪唑类离子液体物理法吸收CO_2的机理和研究成果以及季铵类、磺酸类和含氨基功能化离子液体化学法吸收CO_2的机理和研究进展。通过利用离子液体的无蒸汽压、优良的溶解和催化性能、绿色无污染等特性,结合对离子液体的功能化设计,使其在吸收转化CO_2方面的应用越来越广泛。     

离子液体非加氢脱氮技术的研究进展

分析了离子液体的脱氮原理,并按阴离子类型对其进行了分类,着重介绍了各类离子液体在油品非加氢脱氮中的应用。相对于其他非加氢脱氮技术,离子液体脱氮技术具有选择性高、化学及热稳定性高、操作工艺简单、易回收、污染少、脱氮率高等优点。进一步提高离子液体的重复使用性、稳定性、选择性和降低其生产成本是该领域今后研究工作的主要目标。     

丙胺类离子液体的合成及其脱硫性能

以廉价的正丙胺及苯酚、乳酸、四氮唑乙酸为原料,采用一步法合成了3种丙胺类离子液体(丙胺乳酸盐([PA]L)、丙胺苯酚盐([PA][PHE])、丙胺四氮唑乙酸盐([PA][TAA]),并将其用于SO_2的吸收。测定了3种离子液体的主要理化指标,系统考察了其脱硫性能,并对SO_2的吸收机理进行了探讨。实验结果表明:3种离子液体均具有较高的热稳定性;25℃下,[PA][TAA]的密度和表面张力均较高,而[PA][PHE]的黏度远小于[PA]L和[PA][TAA],仅为66 mPa·s;3种离子液体的脱硫能力均较高,且吸收速率快,30℃下吸收平衡时SO_2与[PA][PHE],[PA]L,[PA][TAA]的摩尔比分别为0.570,0.806,0.904;3种离子液体的解吸较容易,对SO_2的吸收具有高选择性,且循环使用性能较好;丙胺类离子液体对SO_2同时存在物理吸收和化学吸收作用。     

废聚酯材料化学解聚研究进展

综述了近年来国内外废聚酯材料的酸性水解法、碱性水解法、中性水解法、甲醇醇解法、乙二醇醇解法、异辛醇醇解法、超临界水解法、超临界醇解法和离子液体环境下的废聚酯化学解聚的研究进展.对离子液体化学解聚废聚酯的前景进行了展望.     

超临界二氧化碳在环境保护中的应用

超临界CO2具有气体的低粘度、高扩散系数和液体的高密度特性，且具有化学惰性，无毒、无腐蚀性，临界状态容易实现，是一种性能优良的环境友好溶剂。文章概述了超临界CO2在去除环境污染物、取代传统工艺助剂或溶剂以减少有机物和废水排放以及分析测试等方面的应用。     

聚乳酸解聚方法研究进展

综述了近年来国内外关于聚乳酸的热解聚法和酸性水解法、碱性水解法、中性水解法、高温高压水解法、酶催化法、甲醇醇解法、正丁醇醇解法等化学解聚法的研究进展,并对聚乳酸在离子液体环境中进行化学解聚的可行性进行了探讨和展望。     

信息与动态

一种低温分解挥发性有机物的新型非均相催化剂Chemical Engineering,2011,118(11):12日本东京技术研究院化学品研究所的YukiTaniguchi教授开发了一种新型催化系统,可采用常规催化剂在比所需温度更低的温度下分解挥发性有机物(VOCs)。离子液体负载相催化剂(SILP)由离子液体饱和的硅胶及分散态金属氧化物的纳米颗粒     

硅胶固载胍盐离子液体脱硫材料的制备及其SO2吸附性能

采用一步法分别合成了1,1,3,3-四甲基胍辛二酸盐离子液体([TMG][SUB])和1,1,3,3-四甲基胍聚乙二醇二羧酸盐离子液体([TMG][PBE]),并采用浸渍法将其分别固载到硅胶上,制备了2种硅胶固载胍盐离子液体脱硫材料(固载材料)。对离子液体和固载材料进行了表征,并考察了固载材料对SO2的吸附性能和再生性能。实验结果表明:固载材料对SO2的吸附发挥了离子液体和硅胶的协同作用,离子液体结构中的醚基基团可促进固载材料对SO2的吸附;在固载比为0.2∶1时,所制备的固载材料[TMG][PBE]-SiO2的SO2饱和吸附量为1.22 g/g(以离子液体计,下同),[TMG][SUB]-SiO2的SO2饱和吸附量为1.01 g/g,均大于纯离子液体,且[TMG][PBE]-SiO2的再生性能更好。     

表面活性剂在多环芳烃污染土壤修复中的应用

介绍了单一表面活性剂（非离子表面活性剂、生物表面活性剂）、阴-非离子混合表面活性剂对多环芳烃的增溶作用、增溶机理及无机离子对表面活性剂增溶能力的影响,综述了化学表面活性剂和生物表面活性剂在污染土壤生物修复中的应用。由于生物表面活性剂具有许多独特的优点,今后应加强生物表面活性剂的开发与应用研究。     

废水中汞离子去除方法的研究进展

基于国内外研究文献结合自身最新研究工作,论述了去除工业废水中汞离子的化学沉淀法、微电解混凝沉淀法、吸附法等方法及其作用原理,并分析了各种方法的优缺点;指出了吸附法对含极低浓度汞离子废水的深度处理具有明显的优势。近年来合成的新型导电性聚芳香胺对汞离子初始质量浓度为十至数百mg／L的溶液中汞的去除率在99．99％以上,在含汞工业废水处理中显示出了广阔的应用前景。     

Development of Regenerated Cellulose/Citric Acid Films with Ionic Liquids

Nowadays, the importance of green and biodegradable plastics as viable substitutes for non-degradable petroleum-based materials is felt more than ever. Regenerated cellulose (RC) as a potential candidate suffers from poor processability and inferior properties, limiting its wide applications. In this study, it is demonstrated that citric acid (CA) enhances physical, mechanical, and thermal properties of RC films, due to RC-citric acid compatibility. 1-ethyl-3-methylimidazolium chloride (EMIMCl) as a green ionic liquid was employed for the processing of RC. The optimum properties in terms of thermal stability, mechanical strength, contact angle, water uptake, and oxygen permeability were achieved at 10 wt% of CA. However, further incorporation of CA adversely affected the film properties. This behaviour was explained by the crosslinking and plasticizing effects of CA. Furthermore, in vitro cytotoxicity test demonstrated that RC/CA films are cytocompatible, suggesting the potential advantage of using these biopolymeric films for biomaterial and biological applications.

     

Environmentally Friendly Methodology for Preparation of Amino Acid Containing Polyamides

A short and green method for the preparation of optically active aromatic polyamides (PAs) using tetrabutylammonium bromide (TBAB) as a molten ionic liquid is reported. Polycondensation reactions of amino acid containing diacid (2S)-5-(4-methyl-2-phthalimidylpentanoylamino)isophthalic acid with various commercially available diisocyanates in molten TBAB as a green medium or in N-methylpyrrolidone as common organic solvent with or without dibutyltin dilaurate as a catalyst under microwave irradiation were carried out. Various PAs were obtained with high yields and moderate inherent viscosities in the rang of 0.30–0.57 dL/g. The obtained polymers were characterized by FT-IR, specific rotation measurements, and representative of them by ¹H NMR and elemental analysis techniques. Thermal properties of PAs were evaluated by thermogravimetric analysis and the results showed that the 10% weight loss temperature in a nitrogen atmosphere for four representative samples were more than 258 °C, which indicates that the resulting PAs have good thermal stability as well as excellent solubility.     

页岩气压裂返排液处理技术的研究进展

页岩气是一种重要的天然气资源,在其水力压裂开采过程中加入了多种有机添加剂,产生了大量具有高黏度、高COD、高含盐量特性的压裂返排液,常规处理技术难以实现其达标排放或回用。分析了页岩气压裂返排液的组分和特点,归纳总结了成熟的传统处理技术和新型处理技术的特点,提出了优化压裂返排液处理工艺、加强环境信息公开、研发节能环保的新型页岩气压裂技术的未来发展方向,为页岩气压裂返排液无害化、资源化处理技术的研发提供了思路和参考。     

Artificial lightweight aggregates as utilization for future ashes - A case study

In the future, more electricity in the Netherlands will be produced using coal with co-combustion. Due to this, the generated annual ash volume will increase and the chemical composition will be influenced. One of the options for utilization if present markets are saturated and for use of fly ashes with different compositions, is as raw material for lightweight aggregates. This was selected as one of the best utilizations options regarding potential ash volume to be applied, environmental aspects and status of technology. Because of this, a study has been performed to assess the potential utilization of fly ash for the production of lightweight aggregate. Lightweight aggregate has been produced in a laboratory scale rotary kiln. The raw material consisted of class F fly ash with high free lime content. An addition of 8% clay was necessary to get green pellets with sufficient green strength. The basic properties of the produced lightweight aggregate and its behaviour in concrete have been investigated. The concrete has a good compressive strength and its leaching behaviour meets the most stringent requirements of Dutch environmental regulations. The carbon foot print of concrete will be negatively influenced if only the concrete itself is taken into account, but the reduction of the volume weight has advantages regarding design, transport emissions and isolation properties which may counteract this. In the Dutch situation the operational costs are higher than expected potential selling price for the LWA, which implies that the gate fee for the fly ash is negative.     

Ionic Liquids as Environmentally Friendly Solvents in Macromolecules Chemistry and Technology,Part I

With the increasing emphasis on the environment and the need to find environmentally friendly solvent systems, ionic liquids (IL)s have been emerging as promising green solvents to replace conventional solvents in recent years. They possess unique properties such as nonvolatility, low toxicity, ease of handling, nonflammability and high ionic conductivity; thus they have received much attention as green media for various chemistry processes. This report provides an extensive overview of use of ILs in polymers chemistry and technology.     

Ionic Liquids as Environmentally Friendly Solvents in Macromolecules Chemistry and Technology,Part II

With the increasing emphasis on the environment and the need to find environmentally friendly solvent systems, ionic liquids (IL)s have been emerging as promising green solvents to replace conventional solvents in recent years. They possess unique properties such as nonvolatility, low toxicity, ease of handling, nonflammability and high ionic coductivity; thus they have received much attention as green media for various chemistry processes. This report provides an extensive overview of use of ILs in polymers chemistry and technology.     

Renewable hydrocarbons through biomass hydropyrolysis process: challenges and opportunities

Considering the current issues of carbon control and the desire to become less dependent on imported oil, the utilization of renewable hydrocarbons for the reduction of CO₂ emission and production of liquid synthetic fuels/chemicals has been proposed by researchers worldwide. Efforts to make chemicals/fuels from renewable resources have escalated over the past few years. Biomass-based renewable hydrocarbons are considered to be one of the sources with the highest potential to contribute to the energy needs of modern society for both developed and developing economies worldwide. Fast pyrolysis is becoming an important thermal route to convert biomass to liquid fuels; however, the raw bio-oils obtained have a number of negative properties such as high acidity, high water content, and variable viscosity over time. To overcome this problem and produce bio-oil of good quality, process of ‘hyropyrolysis’ has been developed. The scope for using pyrolysis under hydrogen pressure and also by process of hydropyrolysis followed by in situ hydroconversion of vapors to give oils with much lower oxygen contents has been reviewed.     

Development of Lignin and Nanocellulose Enhanced Bio PU Foams for Automotive Parts

The green rigid polyurethane (PU) foam has been developed with 100 % soy polyol after optimization of formulation ingredients and lignin has been introduced and isocyanate content reduced in the green rigid PU foam. The cellulosic nanofibers have also been successfully incorporated and dispersed in green rigid PU foam to improve the rigidity. The influence of nano cellulose fiber modification (enzymatic treatment, hydrophobic modification with latex) on the foam density, open cell content, foam raise height, water vapor, and mechanical properties of rigid PU foam were studied. The foamed structures were examined using scanning electron microscopy to determine the cell size and shape due to the addition of cellulosic nanofibers. The odor test were performed to evaluate the odor concentration 100 % soyol based PU foam including lignin and nanofiber and compared to 100 % synthetic based polyol PU foam. The experimental results indicated that the compression and impact properties improved due to the modification of nano cellulosic fibers. The odor concentration level of nanofiber reinforced rigid PU foam reduced significantly compared to 100 % PU foam due to the replacing of isocyanate content. It can be said that with an appropriate combination of replacing isocyanate by lignin and addition of nanofiber, rigid PU foam properties could be improved.     

硅胶复合材料吸附重金属汞的研究进展

针对高毒性、易累积的重金属汞污染物,介绍了对硅胶基底材料进行化学改性的方法,从液相和气相两方面详述了硅胶复合材料(包括有机官能团改性硅胶材料和无机磁性硅胶复合材料)在汞吸附分离领域的研究和应用进展,分析了现有研究的不足之处,并对该领域未来的研究方向提出了建议。指出,研制出高效、高选择性、高稳定性、易回收的汞吸附剂是治理工业废水和燃煤烟气中汞污染的关键。     

Development and Application of Green Composites: Using Coffee Ground and Bamboo Flour

Environmental degradation and global warming are increasing as a result of the use of petroleum. Therefore, many industries are seeking more eco-friendly materials that will decrease the level of environmental contamination and economic cost. Recently, the level of coffee consumption has increased rapidly. Therefore, the amount of coffee grounds discarded is increasing. In this study, polylactic acid, coffee grounds and bamboo flour were compounded for green composites. Coffee grounds are used in the recycling of food waste. In addition, 4,4-methylene diphenyl diisocyanate (MDI) was used as a coupling agent. The mechanical strength of green composites decreased with increasing natural filler content. However, mechanical and thermal properties were increased by the addition of MDI as a coupling agent. The hydroxyl groups of natural fillers reacted with the isocyanate group of MDI, and a urethane linkage was created between the polymer and natural fillers.