Purification of motor fuels by means of extraction using deep eutectic solvent based on choline chloride and glycerol

Kučan, Kristina Zagajski; Rogošić, Marko

doi:10.1002/jctb.5885

Cited by 35 publications

(29 citation statements)

References 37 publications

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“…It is worth noting that the values of thermal conductivity for Reline in this work are in excellent agreement with those reported by Gautam and Seth [ 23 ]. In addition, the thermal conductivity of glyceline at 298 K, 0.223 W·m −1 ·K −1 , is close enough to that reported by Kucan and Rogošic [ 22 ], 0.232. Moreover, there is less than 5% difference between the thermal conductivity of tegaline in this work and that reported by Yan et al [ 21 ].…”

Section: Resultssupporting

confidence: 87%

“…Yan et al reported the thermal conductivity of four types of DESs using methyl triphenyl-phosphonium-bromide (MTPB) and choline chloride (ChCl) as HBA, and ethylene glycol (EG) and triethylene glycol (TEG) as HBD from 25 °C to 50 °C [ 21 ]. Kucan and Rogošic measured the thermal conductivity of choline chloride-glycerol-based DESs of different molar ratios (ChCl-Gly 1:1.5, 1:2 and 1:3) at 25 °C [ 22 ]. Gautam and Seth [ 23 ] reported the thermal conductivity of ammonium-based DESs.…”

Section: Introductionmentioning

confidence: 99%

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Thermal Conductivities of Choline Chloride-Based Deep Eutectic Solvents and Their Mixtures with Water: Measurement and Estimation

et al. 2020

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The thermal conductivities of selected deep eutectic solvents (DESs) were determined using the modified transient plane source (MTPS) method over the temperature range from 295 K to 363 K at atmospheric pressure. The results were found to range from 0.198 W·m−1·K−1 to 0.250 W·m−1·K−1. Various empirical and thermodynamic correlations present in literature, including the group contribution method and mixing correlations, were used to model the thermal conductivities of these DES at different temperatures. The predictions of these correlations were compared and consolidated with the reported experimental values. In addition, the thermal conductivities of DES mixtures with water over a wide range of compositions at 298 K and atmospheric pressure were measured. The standard uncertainty in thermal conductivity was estimated to be less than ± 0.001 W·m−1·K−1 and ± 0.05 K in temperature. The results indicated that DES have significant potential for use as heat transfer fluids.

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Section: Resultssupporting

confidence: 87%

Section: Introductionmentioning

confidence: 99%

Thermal Conductivities of Choline Chloride-Based Deep Eutectic Solvents and Their Mixtures with Water: Measurement and Estimation

et al. 2020

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“…This {ChCl+glycerol} mixture of a 1:2 molar ratio exhibits highly desirable properties including high solvency of organic substances, miscibility with polar protic solvents, low volatility, high thermal stability, wide liquid state range, etc. The increasing appeal of glyceline for practical applications in combination with its easy preparation from generally available low-cost reagents stimulated many researchers to study all kinds of properties including density, − viscosity, ,,,− ,,− electrical conductivity, ,,,,,,,,,, refractive index, ,,,,,, surface tension, speed of sound, ,,, vapor pressure, , heat capacity, , thermal conductivity, and temperature diffusivity . Apparently, the most studied properties are density, viscosity, and conductivity where, taken together, more than 30 publications can be found.…”

Section: Introductionmentioning

confidence: 99%

A Comprehensive Study of Density, Viscosity, and Electrical Conductivity of (Choline Chloride + Glycerol) Deep Eutectic Solvent and Its Mixtures with Dimethyl Sulfoxide

Agieienko

Buchner

2020

J. Chem. Eng. Data

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The data for density (ρ) and the transport properties viscosity (η) and electrical conductivity (κ) of a deep eutectic solvent (DES), glyceline, composed of choline chloride (ChCl) and glycerol at a 1:2 molar ratio are presented. Density was determined in the temperature range from T = (278.15 to 363.15) K, while measurements for η and κ were performed at T = (278.15 to 368.15) K and T = (278.15 to 338.15) K, respectively. The results were compared to the corresponding data provided in the literature, and their possible discrepancies are discussed. Additionally, ρ(T), η(T), and κ(T) were determined for mixtures of glyceline with dimethyl sulfoxide (DMSO) covering an entire miscibility range. For both neat DES and its mixtures, density data vary linearly with temperature, whereas η(T) and κ(T) were best fit by the empirical Vogel−Fulcher−Tammann equation. For the {glyceline+DMSO} system, the analysis of excess molar properties revealed that observed deviations from ideal density are mainly caused by packing effects. Nevertheless, the presence of strong Hbonding is supported by the sign and temperature dependence of excess viscosity. Similar to concentrated solutions of conventional electrolytes, the conductivity of {glyceline+DMSO} mixtures shows a pronounced maximum. Expectedly, its position depends significantly on temperature but is also sensitive to the type of a hydrogen bond donor used to prepare the DES.

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“…The same group reported the effect of varying the molar ratio of HBAs to HBDs on the extraction efficiency of the combined processes using choline chloride/glycerol (1:1.5, 1:2, and 1:3 M ratios). 38 The results indicated that the increase in the amount of glycerol enhances the extraction efficiency of the impurities. In another work, choline chloride/ethylene glycol DESs (at molar ratios of 1:2, 1:3, and 1:3.5) were examined as solvents for fuel purification.…”

Section: Introductionmentioning

confidence: 96%

“…They found that the most efficient DES for the removal of fuel impurities, “thiophene, pyridine, and toluene”, was betaine/propylene glycol (1:3.5). The same group reported the effect of varying the molar ratio of HBAs to HBDs on the extraction efficiency of the combined processes using choline chloride/glycerol (1:1.5, 1:2, and 1:3 M ratios) . The results indicated that the increase in the amount of glycerol enhances the extraction efficiency of the impurities.…”

Section: Introductionmentioning

confidence: 99%

Extraction of Thiophene, Pyridine, and Toluene from n-Decane as a Diesel Model Using Betaine-Based Natural Deep Eutectic Solvents

et al. 2020

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In an attempt to develop an alternative process that meets the criteria of "green" and economically sound technology in fuel purification, simultaneous extractive desulfurization, denitrification, and dearomatization using natural deep eutectic solvents (NADESs) were investigated. A NADES composed of betaine (Bet) as a hydrogen bond acceptor (HBA) and levulinic acid (LevA) as a hydrogen bond donor (HBD) was investigated for its extraction capacity of thiophene, pyridine, and toluene from n-decane via liquid−liquid extraction. First, the HBA/HBD molar ratio was optimized based on the highest overall extraction efficiency, which was achieved for Bet/ LevA (1:7). Furthermore, the selected NADES was characterized by measuring its density, dynamic viscosity, and water content. Then, the solubility of each fuel impurity in the NADES was measured. Moreover, the liquid−liquid equilibrium (LLE) data of the pseudo-ternary systems {n-decane (1) + thiophene/pyridine/ toluene (2) + Bet/LevA (1:7) (3)} were determined at 298.15 K and 1.01 bar. The assumption of a pseudo-ternary system, which means that the NADES stays intact in one phase, was validated experimentally. The solute distribution ratios, selectivities, and the extraction efficiencies of each impurity at a 1:1 solvent-to-feed mass ratio were calculated from the experimental LLE data and compared to a benchmark solvent (i.e. sulfolane) and other ionic liquids and DESs reported in the literature. The LLE data were also correlated using the nonrandom two-liquid thermodynamic model. The regressed LLE data showed good agreement with the experimental data as the root-mean-square deviation was found to be ≤0.29%. Finally, it is clear that Bet/LevA (1:7) can be considered as a potential natural solvent for combined desulfurization, denitrification, and dearomatization processes.

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Purification of motor fuels by means of extraction using deep eutectic solvent based on choline chloride and glycerol

Cited by 35 publications

References 37 publications

Thermal Conductivities of Choline Chloride-Based Deep Eutectic Solvents and Their Mixtures with Water: Measurement and Estimation

Thermal Conductivities of Choline Chloride-Based Deep Eutectic Solvents and Their Mixtures with Water: Measurement and Estimation

A Comprehensive Study of Density, Viscosity, and Electrical Conductivity of (Choline Chloride + Glycerol) Deep Eutectic Solvent and Its Mixtures with Dimethyl Sulfoxide

Extraction of Thiophene, Pyridine, and Toluene from n-Decane as a Diesel Model Using Betaine-Based Natural Deep Eutectic Solvents

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