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Carbon Dioxide Selective Supported Ionic Liquid Membranes: The Effect of Contaminants

机译：二氧化碳选择性负载离子液体膜：污染物的影响

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The integrated gasification combined cycle (IGCC) is widely viewed as a promising technology for the large scale production of energy in a carbon constrained world. These cycles, which include gasification, contaminant removal, water-gas shift, CO2 capture and compression, and combustion of the reduced-carbon fuel gas in a turbine, often have significant efficiency advantages over conventional combustion technologies. A CO2 selective membrane capable of maintaining performance at conditions approaching those of low temperature water-gas shift (260C) could facilitate the production of carbon-neutral energy by simultaneously driving the shift reaction to completion and concentrating CO2 for sequestration. Supported ionic liquid membranes (SILMs) have been previously evaluated for this application and determined to be physically and chemically stable to temperatures in excess of 300oC. These membranes were based on ionic liquids which interacted physically with CO2 and diminished considerably in selectivity at higher temperatures. To alleviate this problem, the original ionic liquids were replaced with ionic liquids able to form chemical complexes with CO2. These complexing ionic liquid membranes have a local maximum in selectivity which is observed at increasing temperatures for more stable complexes. Efforts are currently underway to develop ionic liquids with selectivity maxima at temperatures greater than 75C, the best result to date, but other practical concerns must also be addressed if the membrane is to be realistically expected to function under water-gas shift conditions. A CO2 selective membrane must function not only at high temperature, but also in the presence of all the reactants and contaminants likely to be present in coal-derived fuel gas, including water, CO, and H2S. A study has been undertaken which examines the effects of each of these gases on both complexing and physically interacting supported liquid membranes. In a joint project, researchers at the University of Notre Dame synthesized and characterized ionic liquids, and researchers at the National Energy Technology Laboratory incorporated candidate ionic liquids into supports and evaluated the resulting materials for membrane performance.

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Luebke, D. E.; Ilconich, J. E.; Myers, C. E.; Pennline, H. W.;
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年度 2008
页码 p.1-6
总页数 6
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Carbon dioxide; Separation processes; Ionic liquids; Membranes; Polymers; Gases; Hydrogen; Permeability; Vapors; Gasification; Evaporation; Diffusion; Stability; Sorption; Evaluation;

机译：二氧化碳;分离过程;离子液体;膜;聚合物;气体;氢气;渗透性;蒸气;气化;蒸发;扩散;稳定性;吸附;评价;

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1. Highly Selective Separation of Carbon Dioxide from Nitrogen and Methane by Nitrile/Glycol-Difunctionalized Ionic Liquids in Supported Ionic Liquid Membranes (SILMs) [J] . Sandra D. Hojniak, Ian P. Silverwood, Asim Laeeq Khan The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2014,第26期

机译：负载离子液体膜（SILMs）中腈/乙二醇双官能化离子液体对氮和甲烷中二氧化碳的选择性分离
2. Influence of Water on Carbon Dioxide and Room Temperature Ionic Liquid Dynamics: Supported Ionic Liquid Membrane vs the Bulk Liquid [J] . Shin Jae Yoon, Yamada Steven A., Fayer Michael D. The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2018,第8期

机译：水对二氧化碳及室温离子液体动力学的影响：负载离子液体膜与散装液体
3. Separation of Carbon Dioxide from Nitrogen or Methane by Supported Ionic Liquid Membranes (SILMs): Influence of the Cation Charge of the Ionic Liquid [J] . Sandra D. Hojniak, Asim Laeeq Khan, Oldamur Holloczki The journal of physical chemistry, B. Condensed matter, materials, surfaces, interfaces & biophysical . 2013,第48期

机译：负载离子液体膜（SILMs）从氮或甲烷中分离二氧化碳：离子液体阳离子电荷的影响
4. Carbon dioxide separation from CO2/N2 and CO2/CH4 mixtures in dynamic flow system using supported ionic liquid membranes [C] . B. Debski, I. Cichowska-Kopczynska, M. Joskowska Euromembrane Conference . 2013

机译：使用负载离子液体膜的动态流动系统中的CO2 / N2和CO2 / CH4混合物中的二氧化碳分离
5. Processes involving acid gas solubility in room temperature ionic liquids (RTILs): Sulfur Dioxide Absorption Refrigeration Cycle and and Carbon Dioxide Separation Using RTIL-Membranes. [D] . Osideinde, Fadekemi. 2012

机译：涉及酸性气体在室温离子液体（RTIL）中的溶解性的过程：二氧化硫吸收制冷循环和使用RTIL膜进行二氧化碳分离。
6. Separation of Carbon Dioxide from Real Power Plant Flue Gases by Gas Permeation Using a Supported Ionic Liquid Membrane: An Investigation of Membrane Stability [O] . Patrik Klingberg, Kai Wilkner, Markus Schlüter, 2019

机译：使用支持的离子液体膜通过气体渗透从实际发电厂烟气中分离二氧化碳：膜稳定性的研究
7. Highly Selective Separation of Carbon Dioxide from Nitrogen and Methane by Nitrile/Glycol-Difunctionalized Ionic Liquids in Supported Ionic Liquid Membranes (SILMs) [O] . Hojniak Sandra D., Silverwood Ian P., Laeeq Khan Asim, 2014

机译：负载离子液体膜（SILMs）中腈/乙二醇双官能化离子液体对氮和甲烷中二氧化碳的高选择性分离

Carbon Dioxide Selective Supported Ionic Liquid Membranes: The Effect of Contaminants

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