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化工新型材料  2018, Vol. 46 Issue (10): 251-254    
  开发与应用 本期目录 | 过刊浏览 | 高级检索 |
胺基改性微/介孔材料吸附CO2研究进展
魏建文,林志峰,梅德均,耿琳琳*,廖雷
桂林理工大学广西矿冶与环境科学实验中心,桂林541004
Progress in amine modified micro/mesoporous material for CO2 adsorption
Wei Jianwen, Lin Zhifeng, Mei Dejun ,Geng Linlin ,Liao Lei
Guangxi Scientific Experiment Center of Mining,Metallurgy and Environment, Guilin University of Technology,Guilin 541004
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摘要 化学嫁接法或物理浸渍法胺基改性微/介孔复合材料结合了化学吸附与物理吸附的优点,是一种潜在的CO2吸附剂。主要论述了胺基改性微孔分子筛、介孔分子筛以及微/介孔复合材料在不同条件下对CO2的捕获效果,并对比了它们的相关性能,对未来新材料的研究方向进行了展望。
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魏建文
林志峰
梅德均
耿琳琳
廖雷
关键词:  胺基  微孔  介孔  复合材料  新型材料  CO2吸附    
Abstract: Combining the advantages of chemical and physical adsorption,the amine modified micro/mesoporous composite material produced by chemical grafting or physical impregnation method is a potential CO2 adsorbent.The capture properties of microporous molecular sieves,mesoporous molecular sieves and micro/mesoporous composite materials after amine modification under different conditions on CO2 were mainly discussed.And their relevant performance was compared.The prospect of some new materials was proposed and a new direction was provided for future research.
Key words:  amine group    microporous    mesoporous    composite material    new material    CO2 adsorption
                    发布日期:  2018-11-06      期的出版日期:  2018-11-06
基金资助: 国家自然科学基金(51566003);广西自然科学基金(2015GXNSFAA139231);广西环境污染控制理论与技术重点实验室基金(Gui Ke Neng0901z003);广西高等学校高水平创新团队及卓越学者计划项目
通讯作者:  耿琳琳(1982-),女,助教,主要从事烟气CO2脱除研究工作。   
作者简介:  魏建文(1975-),男,博士,副教授,硕士生导师,主要从事烟气CO2脱除研究工作。
引用本文:    
魏建文,林志峰,梅德均,耿琳琳,廖雷. 胺基改性微/介孔材料吸附CO2研究进展[J]. 化工新型材料, 2018, 46(10): 251-254.
Wei Jianwen, Lin Zhifeng, Mei Dejun ,Geng Linlin ,Liao Lei. Progress in amine modified micro/mesoporous material for CO2 adsorption. New Chemical Materials, 2018, 46(10): 251-254.
链接本文:  
http://www.hgxx.org/CN/  或          http://www.hgxx.org/CN/Y2018/V46/I10/251
[1] Sumida K,Rogow D L,Mason J A,et al.Carbon dioxide capture in metal-organic frameworks[J].Chemical Reviews,2011,112(2):724-781.
[2] Madden D,Curtin T.Carbon dioxide capture with amino-functionalised zeolite-β:a temperature programmed desorption study under dry and humid conditions[J].Microporous & Mesoporous Materials,2016,228:310-317.
[3] Su F S,Lu C,Kuo S C,et al.Adsorption of CO2 on amine-functionalized Y-type zeolites[J].Energy & Fuels,2010,24(2):1441-1448.
[4] Lee C H,Hyeon D H,Jung H,et al.Effects of pore structure and PEI impregnation on carbon dioxide adsorption by ZSM-5 zeolites[J].Journal of Industrial & Engineering Chemistry,2015,23:251-256.
[5] Bhagiyalakshmi M,Yun L J,Anuradha R,et al.Utilization of rice husk ash as silica source for the synthesis of mesoporous silicas and their application to CO2 adsorption through TREN/TEPA grafting[J].Journal of Hazardous Materials,2010,175(1/2/3):928-938.
[6] Wang W L,Xiao J,Wei X L,et al.Development of a new clay supported polyethylenimine composite for CO2 capture[J].Applied Energy,2014,113(6):334-341.
[7] Sanz R,Calleja G,Arencibia A,et al.CO2 capture with pore-expanded MCM-41 silica modified with amino groups by double functionalization[J].Microporous & Mesoporous Materials,2015,209:165-171.
[8] Yue M B,Sun L B,Cao Y,et al.Promoting the CO2 adsorption in the amine-containing SBA-15 by hydroxyl group[J].Microporous & Mesoporous Materials,2008,114(1/2/3):74-81.
[9] Xu X C,Song C S,Andrésen J M,et al.Preparation and characterization of novel CO2 “molecular basket” adsorbents based on polymer-modified mesoporous molecular sieve MCM-41[J].Microporous & Mesoporous Materials,2003,62(1/2):29-45.
[10] Wei J W,Shi J J,Pan H,et al.Adsorption of carbon dioxide on organically functionalized SBA-16[J].Microporous & Mesoporous Materials,2008,116(1/2/3):394-399.
[11] Matsumoto A,Sasaki T.Thermal stability and hydrophobicity of mesoporous silica FSM-16[J].Colloids & Surfaces A:Physicochemical & Engineering Aspects,2002,203(1/2/3):185-193.
[12] 史晶金,刘亚敏,陈杰,等.氨基功能化SBA-16对CO2的动态吸附特性[J].物理化学学报,2010,26(11):3023-3029.
[13] Son W J,Choi J S,Ahn W S.Adsorptive removal of carbon dioxide using polyethyleneimine-loaded mesoporous silica materials[J].Microporous & Mesoporous Materials,2008,113(1):31-40.
[14] Xu X C,Song C S,Andresen J M,et al.Novel polyethylenimine-modified mesoporous molecular sieve of MCM-41 type as high-capacity adsorbent for CO2 capture[J].Energy & Fuels,2002,16(6):1463-1469.
[15] Liu Y M,Shi J J,Chen J,et al.Dynamic performance of CO2 adsorption with tetraethylenepentamine-loaded KIT-6[J].Microporous & Mesoporous Materials,2010,134(1/2/3):16-21.
[16] Liu Y M,Ye Q,Shen M,et al.Carbon dioxide capture by functionalized solid amine sorbents with simulated flue gas conditions[J].Environmental Science & Technology,2011,45(13):5710-5716.
[17] Kishor R,Ghoshal A K.APTES grafted ordered mesoporous silica KIT-6 for CO2 adsorption[J].Chemical Engineering Journal,2014,262:882-890.
[18] Gartmann N,Schütze C,Ritter H,et al.The effect of water on the functionalization of mesoporous silica with 3-aminopropyltriethoxysilane[J].Journal of Physical Chemistry Letters,2009,1(1):379-382.
[19] Kishor R,Ghoshal A K.N1-(3-trimethoxysilylpropyl)diethylenetriamine grafted KIT-6 for CO2/N2 selective separation[J].RSC Advances,2015,6(2):898-909.
[20] Zele An5k V,Badani Ac5 ov M,HalamovD,et al.Amine-modified ordered mesoporous silica:effect of pore size on carbon dioxide capture[J].Chemical Engineering Journal,2008,144(2):336-342.
[21] Santos S C G,Pedrosa A M G,Souza M J B,et al.Carbon dioxide adsorption on micro-mesoporous composite materials of ZSM-12/MCM-48 type:the role of the contents of zeolite and functionalized amine[J].Materials Research Bulletin,2015,70:663-672.
[22] Zhou J H,Zhao H L,Li J X,et al.CO2 capture on micro/mesoporous composites of (zeolite A)/(MCM-41) with Ca2+ located:computer simulation and experimental studies[J].Solid State Sciences,2013,24(10):107-114.
[23] 孔童童,王霞,郭庆杰.新型多级微/介孔固态胺吸附剂的制备及其CO2吸附性能研究[J].燃料化学学报,2015,43(12):1389-1497.
[24] Liu X W,Gao F,Xu J,et al.Zeolite@mesoporous silica-supported-amine hybrids for the capture of CO2 in the presence of water[J].Microporous & Mesoporous Materials,2015,222:113-119.
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