乙腈+水+离子液体等压汽液平衡测定与计算

采用改进的Ellis平衡蒸馏仪测定了乙腈+水+1-乙基-3-甲基咪唑磷酸二乙酯盐([EMIM][DEP])、乙腈+水+{1-乙基-3-甲基咪唑醋酸盐([EMIM][OAC])+[EMIM][DEP]}常压(101.3 kPa)等压汽液平衡(VLE)数据。实验结果表明,备选离子液体可促进水+乙腈混合物的分离并消除其共沸点。借助NRTL模型成功关联了含离子液体的三元和四元VLE实验数据,获得了乙腈-[EMIM][DEP]、水-[EMIM][DEP]和[EMIM][OAC]-[EMIM][DEP]二元交互作用参数。应用COSMO-SAC预测了实验VLE,结果令人满意。量化计算表明可与水形成强相互作用的离子液体更易促进乙腈与水的分离。     

四种烷基咪唑磷酸酯离子液体的热力学性质

针对烷基咪唑磷酸酯离子液体的热物性数据较少的问题,本文在常压下测定了1-乙基-3-甲基咪唑磷酸二氢盐（[EMIM][DHP]）、1-乙基-3-甲基咪唑磷酸二甲酯盐（[EMIM][DMP]）、1-乙基-3-甲基咪唑磷酸二乙酯盐（[EMIM][DEP]）、1-丁基-3-甲基咪唑磷酸二丁酯盐（[BMIM][DBP]）四种烷基咪唑磷酸酯离子液体的密度、黏度（293.15～353.15K）和电导率（293.15～343.15K）,并且测定了四种离子液体的热稳定性。结果表明,离子液体的密度、黏度随温度的升高而减小,而电导率随温度的升高而增大。采用自然对数方程关联四种离子液体的密度,根据实验值计算到了离子液体体积性质;采用VFT方程关联离子液体黏度和电导率,其中密度与电导率的实验值与模型相关系数R2达到0.9999,黏度相关系数R2达到0.99999,实验测定的数据与模型一致;四种离子液体的热稳定性相近,分解温度均在271.9～278.6℃范围内;瓦尔登规则分析表明,四种烷基咪唑磷酸酯离子液体符合Walden规则,而[EMIM][DMP]和[EMIM][DEP]被归类为“good ionic liq...     

离子液体对乙腈-水体系汽液平衡的影响

测定了恒压下乙腈-水-1-乙基-3-甲基咪唑四氟硼酸盐([EMIM]~+[BF_4]~-)和乙腈-水-1-乙基-3-甲基咪唑硝酸盐([EMIM]~+[NO]_3]~+)的汽液平衡数据,采用NRTL模型对实验数据进行了关联,最大偏差为-0.0306.结果表明,离子液体可以破坏乙腈-水的共沸点,增大乙腈-水在乙腈浓度较高时的相对挥发度.乙腈-水体系的相对挥发度随着离子液体亲水性的增强而增大.     

基于COSMO-RS模型研究基团修饰[EMIM][OAC]的离子液体对乙腈-水汽液平衡的影响

以1-乙基-3-甲基咪唑醋酸盐([EMIM][OAC])为基准,通过分别在阴阳离子上修饰胺基(-NH₂)、羟基(-OH)、腈基(-CN)、卤素(Br、F)等,虚拟设计了15 种阳离子和21 种阴离子组成的离子液体(IL)。采用基于COSMO-RS 模型的COSMOthermX 软件计算了所设计的离子液体对乙腈-水混合物恒压汽液相平衡的影响,探索了修饰基团的种类、离子液体结构对乙腈相对挥发度的影响规律。研究发现,在阳离子碳链上修饰-NH₂,阴离子(醋酸根和丙酸根)羰基的邻碳上进行单一的-OH 修饰能促进乙腈与水的分离,且阳离子修饰的-NH₂ 数越多,促进分离的效果越明显,其他嫁接方式未取得好的分离效果。虚拟设计的两种阳离子(1-胺乙基-3-甲基咪唑、2,2,2-三胺乙基-3-甲基咪唑)与3 种阴离子(羟基乙酸、2-羟基丙酸、2-羟基-3-胺基丙酸)组合的离子液体分离效果明显比[EMIM][OAC]好。     

溴化锂及离子液体水溶液密度、黏度和表面张力测定与计算

常压条件下,实验测定了不同温度（283.15~343.15 K）下吸收制冷/热泵工质对——溴化锂（LiBr）、1-乙基-3-甲基咪唑醋酸盐（[EMIM][OAC]）和1-丁基-3-甲基咪唑硫氰酸盐（[BMIM][SCN]）水溶液的密度、黏度和表面张力,借助线性方程和Vogel-Tammann-Fulcher（VTF）模型,分别成功关联了密度和黏度实验值。研究结果表明：在相同条件下,溴化锂水溶液的密度大于离子液体水溶液的密度,而前者的黏度小于后者;对表面张力,随着溴化锂含量增加,其水溶液的表面张力值增加,而少量离子液体可使水的表面张力快速下降。根据实验黏度和表面张力分别获得了能量势垒和表面熵/焓,表明各水溶液中分子或离子迁移难易程度遵循[EMIM][OAC] > [BMIM][SCN] > LiBr,表面有序性遵循[BMIM][SCN] > [EMIM][OAC] > LiBr。研究结果可为吸收制冷/热泵工质对及低温余热回收系统的设计和计算提供可靠的数据支撑。     

含离子液体乙腈-正丙醇体系的等压汽液平衡

常压(101.3 kPa)下, 测定了如下体系的汽液平衡数据:乙腈-正丙醇-氯化1-苄基-3-甲基咪唑([BzMIM][Cl])、乙腈-正丙醇-溴化1-苄基-3-甲基咪唑([BzMIM][Br])、乙腈-正丙醇-溴化1-己基-3-甲基咪唑([HMIM][Br]), 考察了3种离子液体对乙腈-正丙醇体系相平衡行为的影响。实验结果表明, 3种离子液体都能够提高乙腈对正丙醇的相对挥发度, 3种离子液体提高相对挥发度的顺序为 [BzMIM][Cl] > [BzMIM][Br] > [HMIM][Br]。用NRTL模型对测得的汽液平衡数据进行了关联, 关联结果与实验结果具有良好的一致性。     

环己烷-乙醇-离子液体液液相平衡数据测定及关联

环己烷-乙醇是化工生产中常见的共沸体系,溶剂萃取是分离环己烷-乙醇的重要途径。在常压,303.15 K实验条件下,以[EMIM][OTF](1-乙基-3-甲基咪唑三氟甲烷磺酸盐)、[EMIM][SCN](1-乙基-3-甲基咪唑硫氰酸盐)、[EMIM][DCA](1-乙基-3-甲基咪唑双氰胺盐)3种离子液体为萃取剂,测定环己烷-乙醇的液液相平衡数据。利用分配系数和选择性评价不同离子液体的萃取性能。此外,根据Othmer-Tobias和Hand方程对相平衡实验数据进行一致性和可靠性校验。最后,采用Aspen Plus软件选择NRTL模型对相平衡数据进行关联,获得二元交互作用参数,并将其用于计算相应的相平衡组成。通过研究发现,计算值和实验值的均方根偏差小于0.02,表明NRTL模型能够准确描述三元相平衡过程。     

硫酸/离子液体催化合成三聚甲醛的实验与分子模拟研究

以3种烷基咪唑类酸性离子液体与硫酸组成的复合催化剂取代纯硫酸作为三聚甲醛合成的催化剂.结果表明,在相同反应条件下,硫酸/1-乙基-3-甲基咪唑硫酸氢盐([EMIM][HSO4])作为催化剂时,产物三聚甲醛的平衡浓度可以提高17％.分子动力学模拟研究表明,[EMIM][HSO4]可以改变反应体系粒子间微观结构.加入[EM...     

1-乙基-3-甲基咪唑二氨腈盐中各类溶质无限稀释活度系数的测定

采用反相气相色谱法将离子液体作为固定相测定了27种溶质(烷烃、芳烃,卤代甲烷、醇、酮、醚、酯、三乙胺、二硫化碳、四氢呋喃、乙腈、吗啡啉、吡啶和水)在离子液体1-乙基-3-甲基咪唑二氨腈盐([EMIM][N(CN)2])323.15 K, 333.15 K, 343.15 K和353.15 K下的无限稀释活度系数γ∞1,3.通过计算不同溶质无限稀释活度系数的比值,探讨了[EMIM][N(CN)2]作为共沸、萃取精馏和萃取操作中的夹带剂或萃取剂的可行性.结果显示[EMIM][N(CN)2]在含水以及极性不对称性较大的共沸二元体系中有很好的选择性.此外,通过温度与γ∞1,3值的关系得到溶质的无限稀释偏摩尔焓.     

三辛基甲基醋酸铵离子液体作为夹带剂分离甲苯和乙醇的共沸混合物

通过COSMOthermX软件筛选出萃取精馏的萃取剂为三辛基甲基醋酸铵盐[N8,8,8,1][OAC];测定了常压下甲苯+乙醇的二元气液相平衡数据及甲苯+乙醇+三辛基甲基醋酸铵盐的三元气液相平衡数据,使用非随机双液体(NRTL)模型拟合实验数据。结果表明,三辛基甲基醋酸铵盐离子液体具有打破共沸的能力,实现甲苯-乙醇共沸物的分离。[N8,8,8,1][OAC]的加入对乙醇有显著的盐析效应。当离子液体的摩尔分数逐渐增加时共沸点向下移动,直到共沸物被完全消除。由NRTL模型计算得到[N8,8,8,1][OAC]的最小打破共沸的摩尔分数为0.103 2。实验结果表明,本研究选用的[N8,8,8,1][OAC]能够作为分离甲苯-乙醇共沸体系的萃取剂。     

Effect of methylimidazolium-based ionic liquids on vapor–liquid equilibrium behavior of tert-butyl alcohol + water azeotropic mixture at 101.3 kPa

Three ionic liquids(ILs),1-ethyl-3-methylimidazolium bromine([EMIM]Br),1-butyl-3-methylimidazolium bromine([BMIM]Br),and 1-hexyl-3-methylimidazolium bromine([HMIM]Br),were used as the solvent for separation of {tert-butyl alcohol(TBA)+ water} azeotrope.Vapor–liquid equilibrium(VLE)data for {TBA + water + IL}ternary systems were measured at 101.3 k Pa.The results indicate that all the three ILs produce an obvious effect on the VLE behavior of {TBA + water} system and eliminate the azeotropy in the whole concentration range.[EMIM]Br is the best solvent for the separation of {TBA + water} system by extractive distillation among the three ILs.The experimental VLE data for the ternary systems are correlated with the NRTL model equation with good correlations.Explanations are given with activity coefficients of water and TBA,and the experimental VLE-temperature data for {TBA or water + IL} binary systems.     

Effects of imidazolium-based ionic liquids on the isobaric vapor–liquid equilibria of methanol + dimethyl carbonate azeotropic systems

The separation of methanol(MeOH) and dimethyl carbonate(DMC) is important but difficult due to the formation of an azeotropic mixture. In this work, isobaric vapor–liquid equilibrium(VLE) data for the ternary systems containing different imidazolium–based ionic liquids(ILs), i.e. MeOH + DMC + 1-butyl-3-methy-limidazolium bis[(trifluoromethyl)sulfonyl]imide([Bmim][Tf_2N]), MeOH + DMC + 1-ethyl-3-methyl-imidazolium bis[(trifluoromethyl)sulfonyl]imide([Emim][Tf_2N]), and MeOH + DMC + 1-ethyl-3-methylimidazolium hexafluorophosphate([Emim][PF6])) were measured at 101.3 kPa. The mole fraction of IL was varied from0.05 to 0.20. The experimental data were correlated with the NRTL and Wilson equations, respectively. The results show that imidazolium-based ILs were beneficial to improve the relative volatility of MeOH to DMC,and [Bmim][Tf_2 N] showed a much more excellent performance on the activity coefficient of MeOH. The interaction energies of system components were calculated using Gaussian program, and the effects of cation and anion on the separation coefficient of the azeotropic system were discussed.     

Ionic liquids as entrainer in extractive distillation for effectively separating 1-propanol–water azeotropic mixture

Economically separating 1-propanol (NPA) from water is an emergent issue for producing pharmaceutical intermediates such as n-propyl acetate, n-propylamine and so on. In this work, fourionic liquids (ILs) 1-ethyl-3-methylimidazolium thiocyanate ([EMIM][SCN]), 1-butyl-3-methylimidazolium tetrafluoroborate ([BMIM][BF₄]), 1,3-dimethylimidazolium methylsulfate ([MMIM][MS]), 1,3-dimethylimidazolium dimethylphosphate ([MMIM][DMP]) were introduced as potential entrainers for separating NPA–water azeotropic mixture. The results show that [MMIM][MS] is the most suitable entrainer compared with other ILs from the analysis of vapor–liquid equilibrium and relative volatilities. The extractive distillation process with the entrainer regeneration system of flash tank and stripper was employed and optimized by the two-step optimization method. The results show that total annual cost and energy consumption per product flow rate were reduced by 39.79% and 60.47% compared with literature. In addition, the efficiency indicator of extractive section, efficiency indicator of per tray in extractive section, carbon dioxide emissions were also selected as the evaluation index for selection of operating parameters and calculated for different cases. The CO₂ emissions of the optimal design can be reduced by 60.98% from environmental aspect.     

乙腈+[C4mim][Cl]、乙腈+[C4mim][BF4]、乙腈+[C6mim][Cl]的气液平衡测定与关联（英文）

Vapor pressures were measured for acetonitrile+1-butyl-3-methylimidazolium chloride ([C4mim][Cl]),+1-butyl-3-methylimidazolium tetrafluoroborate ([C4mim][BF4]) and+1-hexyl-3-methylimidazolium chloride ([C6mim][Cl]) at temperatures of 313 to 353 K by a quasi-static method. The experimental data for the binary sys-tems were correlated by the non-random two liquid (NRTL) equation with an average absolute relative deviation (AARD) of within 1.84%. The results indicate that the three ionic liquids (ILs) can result in a negative deviation from the Raoult's law for the binary solutions containing acetonitrile, and the affinity between ILs and acetonitrile mole-cules fol ows the order [C4mim][BF4]+acetonitrile N [C4mim][Cl]+acetonitrile N [C6mim][Cl]+acetonitrile.     

Vapor pressure measurement and correlation of acetonitrile+1-butyl-3-methylimidazolium chloride,+1-butyl-3-methylimidazolium tetrafluoroborate,and+1-hexyl-3-methylimidazolium chloride

Vapor pressures were measured for acetonitrile+1-butyl-3-methylimidazolium chloride ([C4mim][Cl]),+1-butyl-3-methylimidazolium tetrafluoroborate ([C4mim][BF4]) and+1-hexyl-3-methylimidazolium chloride ...     

Development of energy-optimum aromatic extraction processes using ionic liquid [EMIM][NTf2]

There is industrial incentive to extract aromatics from ethylene cracker feeds, but the conventional sulfolane solvent was found not economical by Meindersma and coworkers. Ionic liquids (ILs) have long been considered alternative aromatic extraction solvents. This work develops energy-optimum aromatic extraction processes for an ethylene cracker feed using IL solvents. We avoid pitfalls of using simplified feeds and a priori thermodynamic property estimates, with the largest set of experimentally regressed UNIQUAC binary parameters for the IL, 1-ethyl-3-methylimidazolium bis([trifluoromethyl]sulfonyl)imide ([EMIM][NTf2]). We screen process energy and operating conditions for [EMIM][NTf2] and sulfolane at varying aromatic feed contents and find [EMIM][NTf2] favorable at low aromatic feed contents. Adding light and heavy components of the ethylene cracker feed necessitates process modifications. Our novel steam-assisted extractive distillation developed for [EMIM][NTf2] is also suitable for sulfolane. We show that the [EMIM][NTf2] solvent can reduce 10.7% of energy consumption compared to sulfolane using the same novel process.     

Insight into the behavior at the hygroscopicity and interface of the hydrophobic imidazolium-based ionic liquids

How to completely remove the water from ionic liquids(ILs) is difficult for researchers because of the hygroscopicity of ILs. In order to study the hygroscopicity of ILs, two kinds of ILs, 1-Butyl-3-methylimidazolium hexafluorophosphate([Bmim][PF_6]) and 1-Butyl-3-methylimidazolium Bis(trifluoromethanesulfonyl)([Bmim][NTf_2]) were investigated by molecular dynamics simulations. Although[Bmim][PF_6] and [Bmim][NTf_2] are hydrophobic, both of the ILs could absorb water molecules from the vapor. In this work, the process of absorbing water from the vapor phase was studied, and the water molecules could disperse into the IL. Aggregation was observed with increasing the water concentration.Although the absorbed water increases obviously, the amount of free water and small cluster in the ILs does not change significantly and always stays at a certain level. The amount of free water and small cluster in [Bmim][PF_6] is more than that in [Bmim][NTf_2], which is consistent with their hydrophobicity. In addition, the liquid-vacuum and liquid–liquid interfaces of the ILs were simulated and analyzed in detail.The number density distribution and angle distribution indicated that [Bmim]+cations arrangement regularly at the IL-vacuum interface. The butyl chain point to the vacuum, while the imidazlium ring is close to the IL phase region and perpendicular to the interface. While at the IL-water interface, the cations and anions are disordered.