Deep eutectic solvents composed of bio-phenol-derived superbase ionic liquids and ethylene glycol for CO2 capture

The CO2 solubilities (including CO2 Henry’s constants) and viscosities in ionic liquids (ILs)/deep eutectic solvents (DESs)-based hybrid solvents were comprehensively collected and summarized. The literature survey results of CO2 solubility illustrated that the addition of hybrid solvents to ILs/DESs can significantly enhance the CO2 solubility, and some of the ILs-based hybrid solvents are super to DESs-based hybrid solvents. The best hybrid solvents of IL–H2O, IL–organic, IL–amine, DES–H2O, and DES–organic are [DMAPAH][Formate] (2.5:1) + H2O (20 wt %) (4.61 mol/kg, 298 K, 0.1 MPa), [P4444][Pro] + PEG400 (70 wt %) (1.61 mol/kg, 333.15 K, 1.68 MPa), [DMAPAH][Formate] (2.0:1) + MEA (30 wt %) (6.24 mol/kg, 298 K, 0.1 MPa), [TEMA][Cl]-GLY-H2O 1:2:0.11 (0.66 mol/kg, 298 K, 1.74 MPa), and [Ch][Cl]-MEA 1:2 + DBN 1:1 (5.11 mol/kg, 298 K, 0.1 MPa), respectively. All of these best candidates show higher CO2 solubility than their used pure ILs or DESs, evidencing that IL/DES-based hybrid solvents are remarkable for CO2 capture. For the summarized viscosity results, the presence of hybrid solvents in ILs and DESs can decrease their viscosities. The lowest viscosities acquired in this work for IL–H2O, IL–amine, DES–H2O, and DES–organic hybrid solvents are [DEA][Bu] + H2O (98.78 mol%) (0.59 mPa·s, 343.15 K), [BMIM][BF4] + DETA (94.9 mol%) (2.68 mPa·s, 333.15 K), [L-Arg]-GLY 1:6 + H2O (60 wt %) (2.7 mPa·s, 353.15 K), and [MTPP][Br]-LEV-Ac 1:3:0.03 (16.16 mPa·s, 333.15 K) at 0.1 MPa, respectively.

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Fe–Mn Alloys Electroforming Process Using Choline Chloride Based Deep Eutectic Solvents

Materials Proceedings ◽

10.3390/materproc2021005040 ◽

2021 ◽

Vol 5 (1) ◽

pp. 40

Author(s):

Vinicius Sales ◽

Carlo Paternoster ◽

Diego Mantovani ◽

Georgios Kolliopoulos

Keyword(s):

Cyclic Voltammetry ◽

Ionic Liquids ◽

Ethylene Glycol ◽

Reduction Potential ◽

Choline Chloride ◽

Deep Eutectic Solvents ◽

Electrochemical Potential ◽

Bath Composition ◽

Promising Alternative ◽

Electrodeposition Of Metals

Aqueous solvents, despite being effective in the electrodeposition of metals with positive reduction potential, fail to deposit metals with negative reduction potential due to their narrow electrochemical potential window. Deep eutectic solvents (DESs), a class of ionic liquids, are a promising alternative of inexpensive, biodegradable, non-toxic anhydrous solvents that present wide electrochemical potential windows. The present work reports on the potential of choline chloride/ethylene glycol DES in the electrodeposition of Fe–Mn alloys. Cyclic voltammetry tests showed that increasing the quantity of Mn in the bath composition decreases the deposition current of the alloy.

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Comparative Investigation of Different CO2 Capture Technologies for Coal to Ethylene Glycol Process

Processes ◽

10.3390/pr9020207 ◽

2021 ◽

Vol 9 (2) ◽

pp. 207

Author(s):

Yanqing Ma ◽

Yitao Liao ◽

Yi Su ◽

Baojie Wang ◽

Yong Yang ◽

...

Keyword(s):

Energy Consumption ◽

Ethylene Glycol ◽

Co2 Capture ◽

Carbon Capture ◽

Dimethyl Carbonate ◽

Comprehensive Evaluation ◽

Supply And Demand ◽

Comparative Investigation ◽

High Co2 ◽

Comprehensive Performance

The coal to ethylene glycol (CTEG) process has drawn much attention due to the serious conflict between supply and demand of ethylene glycol in China. However, it is inevitably accompanied by the problem of high CO2 emissions. Carbon capture is one of the most promising potential effective ways to address this issue. However, the CTEG process, integrated with carbon capture technology, will lead to energy and economic penalties. Thus, a comprehensive evaluation of CTEG process with different CO2 capture technologies is urgently needed. This study analyzed the technoeconomic performance of four CO2 capture alternatives for the CTEG process: Rectisol, mono-ethanol amine (MEA), chilled ammonia process (CAP) and dimethyl carbonate (DMC) technologies. Results show the energy consumption of CO2 capture of the Rectisol process is the lowest, 1.88 GJ/tCO2, followed by the DMC process, 2.10 GJ/tCO2, the CAP process, 3.64 GJ/tCO2, and the MEA process, 5.20 GJ/tCO2. The CO2 capture cost of the Rectisol process is lowest, CNY 169.5/tCO2, followed by the DMC process, CNY 193.2/tCO2, the CAP process CNY 232.6/tCO2, and the MEA process CNY 250.5/tCO2. As the Rectisol technology has the best comprehensive performance, it is the best option for CTEG industry in comparison with the MEA, CAP, and DMC technologies.

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Research Trends of Carbon Dioxide Capture using Ionic Liquids and Aqueous Amine-Ionic Liquids Mixtures

Scientific Research Journal ◽

10.24191/srj.v13i1.9382 ◽

2016 ◽

Vol 13 (1) ◽

pp. 53

Author(s):

Siti Nabihah Jamaludin ◽

Ruzitah Mohd Salleh

Keyword(s):

Ionic Liquids ◽

Co2 Capture ◽

Membrane Separation ◽

Carbon Dioxide Capture ◽

Global Climate ◽

Research Trends ◽

Co2 Absorption ◽

Absorption Process ◽

Chemical Absorption ◽

Factors Influencing

Anthropogenic CO2 emissions has led to global climate change and widely contributed to global warming since its concentration has been increasing over time. It has attracted vast attention worldwide. Currently, the different CO2 capture technologies available include absorption, solid adsorption and membrane separation. Chemical absorption technology is regarded as the most mature technology and is commercially used in the industry. However, the key challenge is to find the most efficient solvent in capturing CO2. This paper reviews several types of CO2 capture technologies and the various factors influencing the CO2 absorption process, resulting in the development of a novel solvent for CO2 capture.

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Study of dynamics and nanosegregation in ionic liquids and deep eutectic solvents by fluorescence correlation spectroscopy

10.31274/etd-20200624-189 ◽

2020 ◽

Author(s):

Deyny Leticia Mendivelso-P?rez

Keyword(s):

Ionic Liquids ◽

Fluorescence Correlation Spectroscopy ◽

Deep Eutectic Solvents ◽

Correlation Spectroscopy ◽

Fluorescence Correlation

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Controlling surface chemistry and mechanical properties of metal ionogels through Lewis acidity and basicity

Journal of Materials Chemistry A ◽

10.1039/d0ta11821d ◽

2021 ◽

Vol 9 (8) ◽

pp. 4679-4686

Author(s):

Coby J. Clarke ◽

Richard P. Matthews ◽

Alex P. S. Brogan ◽

Jason P. Hallett

Keyword(s):

Mechanical Properties ◽

Ionic Liquids ◽

Ethylene Glycol ◽

Surface Chemistry ◽

Lewis Acidity ◽

Metal Species ◽

Poly Ethylene Glycol ◽

Acidity And Basicity ◽

Poly Ethylene

Gels prepared from metal containing ionic liquids with cross-linked poly(ethylene glycol) have surface compositions and mechanical properties that can be controlled by Lewis basicity and acidity of the metal species.

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