Optimal Absorbent Evaluation for the CO2 Separating Process by Absorption Loading,Desorption Efficiency,Cost, and Environmental Tolerance

The CO₂ absorption capacities of potassium glycinate, potassium sarcosinate (choline, proline), mono-ethanolamine (MEA), and tri-ethanolamine were evaluated to find the optimal absorbent for separating CO₂ from gaseous products by a CO₂ purification process. The absorption loading, desorption efficiency, cost, and environmental tolerance were assessed to select the optimal absorbent. MEA was found to be the optimum absorbent for separating the CO₂ and H₂ mixture in gaseous product. The maximum absorption loading rate was 0.77 mol CO₂ per mol MEA at temperature of 20°C and absorbent concentration of 2.5 mol/L, whereas desorption efficiency was 90% by heating for 3 h at 130°C. MEA was found to be an optimal absorbent for the purification process of CO₂ during gaseous production.     

离子液体吸收废印刷线路板热拆解过程中挥发性有机物——基于COSMO-RS模型

模拟废印刷线路板（WPCB）的热拆解过程,分析热拆解过程中的挥发性有机物（VOCs）组分;利用真实溶剂似导体屏蔽（COSMO-RS）模型对浓度较高的污染物进行量子力学模拟,研究离子液体（ILs）组成单元对目标污染物溶解度的影响差异,分析溶解过程中主导分子间作用力类型,确定优选吸收剂;测定不同溶剂进行溶解性,验证模型适用性.结果表明：①乙酸乙酯和环戊酮是浓度较高的VOCs组分,在240和250℃时浓度分别为43.1,153mg/m³和105,252mg/m³,质量百分比总和分别为76.3%和67.3%.②高表面屏蔽电荷密度分布峰、长烷基链阴阳离子和亲电基团的存在可提高乙酸乙酯和环戊酮在ILs中的溶解度.双三氟甲磺酰基亚胺盐（NTf₂^-）类ILs是一类优良吸收剂.静电力和范德华力对溶解过程起主导作用.③COSMO-RS模型可定性和半定量用于预测乙酸乙酯和环戊酮的溶解度.     

裂解温度和离子强度对不同来源生物炭胶体释放行为的影响

近年来环境中生物炭胶体形成受到广泛关注,它是生物炭在环境中物理分解作用的重要过程,对污染物迁移有着重要影响.然而,目前对生物炭胶体释放过程和影响因素的研究甚少,人们对生物炭胶体释放机理的认识还很有限.本研究以小麦秸秆和花生壳为生物质来源,系统地探讨了生物炭的裂解温度（300~700 ℃）和溶液离子强度（0.1~10 mmol·L^-1）对生物炭胶体产率的影响.结果表明,随着裂解温度的升高,生物炭的耐磨性增强,且在较高的裂解温度下（≥500 ℃）花生壳生物炭的耐磨性显著强于小麦秸秆生物炭.生物炭的胶体产率受到生物质来源和裂解温度的显著影响,花生壳生物炭的胶体产率低于小麦秸秆生物炭,高温裂解（≥600 ℃）生物炭的胶体产率显著低于中低温裂解生物炭.在相同溶液离子强度下,生物炭胶体产率与其亚微米级碎片率呈显著正相关（p<0.05）,即生物炭中亚微米级碎片率越高,生物炭胶体产率越高.当溶液离子强度从1 mmol·L^-1增加到10 mmol·L^-1时,两种来源生物炭的胶体产率均显著降低,其降低的程度因生物炭裂解温度而异,其中低温裂解（300 ℃）生物炭的胶体产率降低了11.1%~11.2%,中高温裂解（≥ 500 ℃）生物炭的胶体产率降低了60.0%~97.2%.     

离子强度、pH值和Ca2+/Al3+对马尾松幼苗的铝毒影响

测定了在不同溶液酸度、不同离子强度和Ca~(2+)/Al~(3+)比下,铝对马尾松幼苗生长状况的影响。结果表明,溶液酸度增加,离子强度减小时,铝的毒害作用增大。钙对铝毒有明显缓解作用,当Ca~(2+)/Al~(3+)增大时,铝的毒性减小,但其缓解作用与铝浓度有关,当铝浓度增加,钙的缓解能力下降。     

新型绿色化学反应介质的研究进展

综述了绿色化学在反应介质方面的研究进展。新型的有机合成反应介质主要包括离子液体、超临界流体、水溶剂及微波无溶剂技术。这些新型反应介质不仅可以取代传统的挥发性有毒有害有机溶剂,同时还可提高反应的活性和选择性,加速反应的进行,且有利于催化剂的回收利用及产品的分离。新型绿色化学反应介质是实现有机合成绿色化的重要途径。     

室内有毒易爆气体的检测

随着城市生活水平的提高,室内装修装饰日益普及.各种新材料的引入,使得室内的各种有害气体总量日益增加.长期生活在这样的环境下,会对人体健康产生极为不利的影响.居民生活用煤气,在给人们生活带来便利的同时,作为一种可燃性、有毒气体,也具有极强的危害性.因此,研制一种能检测多种有害气体的实用仪器,具有很大的应用价值.本仪器为便携式多功能仪器,采用可充电电池供电,可以检测ppb的挥发性气体,显示气体浓度值,也可检测煤气,并具有声光报警功能.     

易燃液体仓库安全监控系统研究

通过对易燃液体仓库的潜在危险的分析和研究,以及火灾爆炸危险性分析,说明安全监控技术的重要性。在对监测参数进行分析的基础上,给出了对监测易燃液体仓库的安全监控系统和监测点的布置以及采用合适的探测器。     

The effect of alkyl chain length on the degradation of alkylimidazolium- and pyridinium-type ionic liquids in a Fenton-like system

Background, aim, and scope  Ionic liquids are regarded as essentially “green” chemicals because of their insignificant vapor pressure and, hence, are a good alternative to the emissions of toxic conventional volatile solvents. Not only because of their attractive industrial applications, but also due to their very high stability, ionic liquids could soon become persistent contaminants of technological wastewaters and, moreover, break through into natural waters following classical treatment systems. The removal of harmful organic pollutants has forced the development of new methodologies known as advanced oxidation processes (AOPs). Among them, the Fenton and Fenton-like reactions are usually modified by the use of a higher hydrogen peroxide concentration and through different catalysts. The aim of this study was to assess the effect of hydrogen peroxide concentration on degradation rates in a Fenton-like system of alkylimidazolium ionic liquids with alkyl chains of varying length and 3-methyl-N-butylpyridinium chloride. Materials and methods  The ionic liquids were oxidized in dilute aqueous solution in the presence of two different concentrations of hydrogen peroxide. All reactions were performed in the dark to prevent photoreduction of Fe(III). The concentrations of ionic liquids during the process were monitored with high-performance liquid chromatography. Preliminary degradation pathways were studied with the aid of ¹H NMR. Results  Degradation of ionic liquids in this system was quite effective. Increasing the H₂O₂ concentration from 100 to 400 mM improved ionic liquid degradation from 57–84% to 87–100% after 60 min reaction time. Resistance to degradation was weaker, the shorter the alkyl chain. Discussion  The compound omimCl was more resistant to oxidation then other compounds, which suggests that the oxidation rates of imidazolium ionic liquids by OH· are structure-dependent and are correlated with the n-alkyl chain length substituted at the N-1-position. The level of degradation was dependent on the type of head group. Replacing the imidazolium head group with pyridinium increased resistance to degradation. Nonetheless, lengthening the alkyl chain from four to eight carbons lowered the rate of ionic liquid degradation to a greater extent than changing the head group from imidazolium to pyridinium. 1H-NMR spectra show, in the first stage of degradation, that it is likely that radical attack is nonspecific, with any one of the carbon atoms in the ring and the n-alkyl chain being susceptible to attack. Conclusions  The proposed method has proven to be an efficient and reliable method for the degradation of imidazolium ionic liquids by a Fenton-like reagent deteriorated with lengthening n-alkyl substituents and by replacing the imidazolium head group with pyridinium. The enhanced resistance of 1-butyl-3-methylpyridinium chloride when the resistance of imidazolium ionic liquids decreases with increasing H₂O₂ concentration is probably indicative of a change in the degradation mechanism in a vigorous Fenton-like system. H-NMR spectra showed, in the first stage of degradation, that radical attack is nonspecific, with any one of the carbon atoms in the ring and the n-alkyl chain being susceptible to attack. Recommendations and perspectives  Since ionic liquids are now one of the most promising alternative chemicals of the future, the degradation and waste management studies should be integrated into a general development research of these chemicals. In the case of imidazolium and pyridinium ionic liquids that are known to be resistant to bio- or thermal degradation, studies in the field of AOPs should assist the future structural design as well as tailor the technological process of these chemicals     

土壤重金属钝化修复剂生物炭对镉的吸附特性研究

目前以生物炭为代表的生物质对重金属的吸附表现出良好的应用前景.为确定生物炭对溶液中镉的吸附性能,选用由棉花秸秆制备的生物炭,研究吸附等温线、吸附动力学以及温度、pH和离子强度等对生物炭吸附Cd2+的影响.研究表明,生物炭对Cd2+的吸附可以用Freundlich等温线较好地拟合,在不同温度下其饱和吸附量分别为9.738 mg.g-1(288.15 K)、10.14 mg.g-1(298.15 K)、10.40 mg.g-1(308.15 K)和10.71 mg.g-1(318.15 K),热力学参数表明生物炭吸附Cd2+的过程是自发的吸热过程;吸附动力学过程符合二级动力学模型,在40 min即可达到平衡;pH对生物炭吸附Cd2+的影响较大,在pH2～8范围时,生物炭对Cd2+的吸附量随pH的增加先上升后下降;生物炭对Cd2+的吸附量随着溶液离子强度的增大呈降低趋势.该项研究可为生物炭在土壤重金属污染修复中的应用提供一定的理论基础.     

咪唑型离子液体对小鼠的急性毒性

采用寇氏改良法研究了咪唑型离子液体对小鼠的急性毒性,并考察了烷基侧链长度对其毒性的影响,同时采用HE染色法观察了其对小鼠肝脏的毒性.结果表明,4种咪唑型离子液体([C10mim]Br、[C12mim]Br、[C14mim]Br和[C18mim]Br)对小鼠肝脏均有损伤,其LD50值在98.91～220.16 mg·kg...