新型CO_2捕集材料的研究进展
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摘要
综述了近几年来国内外关于CO_2捕集方面的先进技术和理念,介绍了其相对于传统捕集方法的特点和优势。
With the development of the global economy,a large amount of fossil energy consumption has leaded to a sharp increase of CO_2 content in air,which would resulted in a serious environmental problem,the global"greenhouse effect". This paper summarized the advanced technologies and concepts of CO_2 capture at home and abroad in recent years and introduced its characteristics and advantages over conventional capture methods.
With the development of the global economy,a large amount of fossil energy consumption has leaded to a sharp increase of CO_2 content in air,which would resulted in a serious environmental problem,the global"greenhouse effect". This paper summarized the advanced technologies and concepts of CO_2 capture at home and abroad in recent years and introduced its characteristics and advantages over conventional capture methods.
引文
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[2]Mcewen J,Hayman J D,Yazaydin A O.A comparative study of CO2,CH4,and N2,adsorption in ZIF-8,Zeolite-13X and BPL activated carbon[J].Chemical Physics,2013,412(412):72-76.
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[4]SubhadeepChandra,SumanGarai,BikashBanerjee,et al.Carbon dioxide capture by metal organic frameworks[J].Indian Journal of Chemistry,2012,51(9):1223-1230.
[5]Zhang Z.Perspective of microporous metal-organic frameworks for CO2capture and separation[J].Energy&Environmental Science,2014,7(9):2868-2899.
[6]Liu Y,Kasik A,Linneen N,et al.Adsorption and diffusion of carbon dioxide on ZIF-68[J].Chemical Engineering Science,2014(118):32-40.
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[8]Vaidya P D,Kenig E Y.CO2‐Alkanolamine Reaction Kinetics:A Review of Recent Studies[J].Chemical Engineering&Technology,2007,30(11):1467-1474.
[9]Rao A B,Rubin E S.A technical,economic,and environmental assessment of amine-based CO2capture technology for power plant greenhouse gas control[J].Environmental science&technology,2002,36(20):4467-4475.
[10]Johnson J.Dust is likely cause of deadly blast[J].Chemical&Engineering News,2008,86(7).
[11]Keith D W,Haduong M,Stolaroff J K.Climate Strategy with CO2Capture from the Air[J].Climatic Change,2006,74(1-3):2006.
[12]Figueroa J D,Fout T,Plasynski S,et al.Advances in CO2,capture technology-The U.S.Department of Energy's Carbon Sequestration Program[J].International Journal of Greenhouse Gas Control,2008,2(1):9-20.
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[14]Choi S,Drese J H,Jones C W.ChemInform Abstract:Adsorbent Materials for Carbon Dioxide Capture from Large Anthropogenic Point Sources[J].Cheminform,2009,41(6):796-854.
[15]Harlick P J E,Sayari A.Applications of pore-expanded mesoporous silicas.3.Triamine silane grafting for enhanced CO2adsorption[J].Industrial&Engineering Chemistry Research,2006,45(9):3248-3255.
[16]Hicks J C,Drese J H,Fauth D J,et al.Designing adsorbents for CO2capture from flue gas-hyperbranched aminosilicas capable of capturing CO2reversibly.[J].Journal of the American Chemical Society,2008,130(10):2902-3.
[17]Banerjee R,Furukawa H,Britt D,et al.Control of pore size and functionality in isoreticular zeolitic imidazolate frameworks and their carbon dioxide selective capture properties.[J].Journal of the American Chemical Society,2009,131(11):3875-7.
[18]Babarao R,Jiang J.Unprecedentedly high selective adsorption of gas mixtures in rho zeolite-like metal?organic framework:a molecular simulation study[J].Journal of the American Chemical Society,2009,131(32):11417-11425.
[19]Banerjee R,Pachfule P,Balan B K,et al.One-dimensional Confinement of Nanosized Metal Organic Framework in Carbon Nanofibers for Improved Gas Adsorption[J].Chemical Communications,2012,48(14):2009-11.
[20]Qian D,Lei C,Hao G P,et al.Synthesis of Hierarchical Porous Carbon Monoliths with Incorporated Metal-Organic Frameworks for Enhancing Volumetric Based CO2Capture Capability[J].Acs Applied Materials&Interfaces,2012,4(11):6125-6132.
[21]Millward A R,Yaghi O M.Metal-organic frameworks with exceptionally high capacity for storage of carbon dioxide at room temperature.[J].Journal of the American Chemical Society,2005,127(51):17998-9.
[22]Aprea P,Caputo D,Gargiulo N,et al.Modeling Carbon Dioxide Adsorption on Microporous Substrates:Comparison between CuBTC Metal?Organic Framework and 13X Zeolitic Molecular Sieve[J].Journal of Chemical&Engineering Data,2010,55(9):3655-3661.
[23]Finsy V,Ma L,Alaerts L,et al.Separation of CO2/CH4,mixtures with the MIL-53(Al)metal-organic framework[J].Microporous&Mesoporous Materials,2009,120(3):221-227.
[24]Sun D,Fu Y,Liu W,et al.Studies on Photocatalytic CO2,Reduction over NH2-Ui O-66(Zr)and Its Derivatives:Towards Better Understanding of Photocatalysis on Metal-Organic Frameworks[J].Chemistry-A European Journal,2013,19(42):14279-85.
[25]Yaghi O M,Millward A R.Metal-organic frameworks with exceptionally high capacity for storage of carbon dioxide at roomtemperature:U.S.Patent 7,799,120[P].2010-9-21.
[2]Mcewen J,Hayman J D,Yazaydin A O.A comparative study of CO2,CH4,and N2,adsorption in ZIF-8,Zeolite-13X and BPL activated carbon[J].Chemical Physics,2013,412(412):72-76.
[3]Li J R,Ma Y,Mccarthy M C,et al.Carbon dioxide capture-related gas adsorption and separation in metal-organic frameworks[J].Coordination Chemistry Reviews,2011,255(15-16):1791-1823.
[4]SubhadeepChandra,SumanGarai,BikashBanerjee,et al.Carbon dioxide capture by metal organic frameworks[J].Indian Journal of Chemistry,2012,51(9):1223-1230.
[5]Zhang Z.Perspective of microporous metal-organic frameworks for CO2capture and separation[J].Energy&Environmental Science,2014,7(9):2868-2899.
[6]Liu Y,Kasik A,Linneen N,et al.Adsorption and diffusion of carbon dioxide on ZIF-68[J].Chemical Engineering Science,2014(118):32-40.
[7]Rochelle G T.Amine scrubbing for CO2capture.[J].Science,2009,325(5948):1652-4.
[8]Vaidya P D,Kenig E Y.CO2‐Alkanolamine Reaction Kinetics:A Review of Recent Studies[J].Chemical Engineering&Technology,2007,30(11):1467-1474.
[9]Rao A B,Rubin E S.A technical,economic,and environmental assessment of amine-based CO2capture technology for power plant greenhouse gas control[J].Environmental science&technology,2002,36(20):4467-4475.
[10]Johnson J.Dust is likely cause of deadly blast[J].Chemical&Engineering News,2008,86(7).
[11]Keith D W,Haduong M,Stolaroff J K.Climate Strategy with CO2Capture from the Air[J].Climatic Change,2006,74(1-3):2006.
[12]Figueroa J D,Fout T,Plasynski S,et al.Advances in CO2,capture technology-The U.S.Department of Energy's Carbon Sequestration Program[J].International Journal of Greenhouse Gas Control,2008,2(1):9-20.
[13]Eide L I,Bailey D W.Precombustion decarbonisation processes[J].Oil&gas science and technology,2005,60(3):475-484.
[14]Choi S,Drese J H,Jones C W.ChemInform Abstract:Adsorbent Materials for Carbon Dioxide Capture from Large Anthropogenic Point Sources[J].Cheminform,2009,41(6):796-854.
[15]Harlick P J E,Sayari A.Applications of pore-expanded mesoporous silicas.3.Triamine silane grafting for enhanced CO2adsorption[J].Industrial&Engineering Chemistry Research,2006,45(9):3248-3255.
[16]Hicks J C,Drese J H,Fauth D J,et al.Designing adsorbents for CO2capture from flue gas-hyperbranched aminosilicas capable of capturing CO2reversibly.[J].Journal of the American Chemical Society,2008,130(10):2902-3.
[17]Banerjee R,Furukawa H,Britt D,et al.Control of pore size and functionality in isoreticular zeolitic imidazolate frameworks and their carbon dioxide selective capture properties.[J].Journal of the American Chemical Society,2009,131(11):3875-7.
[18]Babarao R,Jiang J.Unprecedentedly high selective adsorption of gas mixtures in rho zeolite-like metal?organic framework:a molecular simulation study[J].Journal of the American Chemical Society,2009,131(32):11417-11425.
[19]Banerjee R,Pachfule P,Balan B K,et al.One-dimensional Confinement of Nanosized Metal Organic Framework in Carbon Nanofibers for Improved Gas Adsorption[J].Chemical Communications,2012,48(14):2009-11.
[20]Qian D,Lei C,Hao G P,et al.Synthesis of Hierarchical Porous Carbon Monoliths with Incorporated Metal-Organic Frameworks for Enhancing Volumetric Based CO2Capture Capability[J].Acs Applied Materials&Interfaces,2012,4(11):6125-6132.
[21]Millward A R,Yaghi O M.Metal-organic frameworks with exceptionally high capacity for storage of carbon dioxide at room temperature.[J].Journal of the American Chemical Society,2005,127(51):17998-9.
[22]Aprea P,Caputo D,Gargiulo N,et al.Modeling Carbon Dioxide Adsorption on Microporous Substrates:Comparison between CuBTC Metal?Organic Framework and 13X Zeolitic Molecular Sieve[J].Journal of Chemical&Engineering Data,2010,55(9):3655-3661.
[23]Finsy V,Ma L,Alaerts L,et al.Separation of CO2/CH4,mixtures with the MIL-53(Al)metal-organic framework[J].Microporous&Mesoporous Materials,2009,120(3):221-227.
[24]Sun D,Fu Y,Liu W,et al.Studies on Photocatalytic CO2,Reduction over NH2-Ui O-66(Zr)and Its Derivatives:Towards Better Understanding of Photocatalysis on Metal-Organic Frameworks[J].Chemistry-A European Journal,2013,19(42):14279-85.
[25]Yaghi O M,Millward A R.Metal-organic frameworks with exceptionally high capacity for storage of carbon dioxide at roomtemperature:U.S.Patent 7,799,120[P].2010-9-21.