金属-有机骨架材料吸附脱硫的研究进展
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摘要
金属-有机骨架材料(MOFs)是一种新型多孔材料,近年来在吸附脱硫中的应用使其在清洁汽油生产中成为最有潜力的材料。综述MOFs吸附脱硫的研究进展及主要机理,并对MOFs的发展前景和方向进行展望。
Metal-organic frameworks( MOFs) is a new member of porous material family. Recent application in adsorptive desulfurization makes it the most potential material in production of clean gasoline. In this review,the main mechanisms and developments related to adsorptive desulfurization procedures were discussed. Additionally,the development trend of MOFs was prospected.
Metal-organic frameworks( MOFs) is a new member of porous material family. Recent application in adsorptive desulfurization makes it the most potential material in production of clean gasoline. In this review,the main mechanisms and developments related to adsorptive desulfurization procedures were discussed. Additionally,the development trend of MOFs was prospected.
引文
[1]任靖,曹光伟,张勇. Cu(Ⅰ)金属有机骨架材料在汽油吸附脱硫中的应用[J].石油化工高等学校学报,2015,28(3):41-44.Ren Jing,Cao Guangwei,Zhang Yong. Adsorptive desulfurization of gasoline with Cu(Ⅰ)based metal-organic framework[J]. Journal of Petrochemical Universities,2015,28(3):41-44.
[2]Can F,Travert A,Ruaux V,et al. FCC gasoline sulfur reduction additives:mechanism and active sites[J]. Journal of Catalysis,2007,249(1):79-92.
[3]Jain M,Gupta S K. Desulfurization of FCC gasoline by using spiral wound pervaporation module:removal of different types of sulfur containing species[J]. Chemical Engineering Research and Design,2018,136:105-118.
[4]Valla J A,Lappas A A,Vasalos I A,et al. Feed and process effects on the in situ reduction of sulfur in FCC gasoline[J]. Applied Catalysis A:General,2004,276(1/2):75-87.
[5]方柳亚,王国清,石国芳,等.汽油脱硫的技术现状及发展趋势[J].武汉工程大学学报,2016,38(3):218-225.Fang Liuya,Wang Guoqing,Shi Guofang,et al. Present situation and development trend in gasoline desulfurization technology[J]. Journal of Wuhan Institute of Technology,2016,38(3):218-225.
[6]Mortaheb H R,Ghaemmaghami F,Mokhtarani B. A review on removal of sulfur components from gasoline by pervaporation[J]. Chemical Engineering Research and Design,2012,90(3):409-432.
[7]魏书梅,张晓飞,徐亚荣. FCC汽油脱硫工艺技术研究进展[J].当代化工,2017,46(5):917-920.Wei Shumei,Zhang Xiaofei,Xu Yarong. Research progress of desulfurization technology of FCC gasoline[J]. Contemporary Chemical Industry,2017,46(5):917-920.
[8]Khan M R,Aramco Saudi,Arabia Saudi,et al. Sulfur removal from heavy and light petroleum hydrocarbon by selective oxidation[J]. Advances in Clean Hydrocarbon Fuel Processing,2011:243-261.
[9]张国宾,许振宁,周广林,等.催化加氢汽油深度吸附脱硫性能研究[J].精细石油化工,2016,33(3):55-59.Zhang Guobin,Xu Zhenning,Zhou Guanglin,et al. Study on deep adsorptive desulfurization of hydrogasoline[J]. Speciality Petrochemicals,2016,33(3):55-59.
[10]周广林,孙文艳,姜伟丽,等. Ni/Zn O-Si O2-Al2O3吸附剂上加氢汽油的深度临氢吸附脱硫[J].石油炼制与化工,2013,44(7):17-21.Zhou Guanglin,Sun Wenyan,Jiang Weili,et al. Deep desulferization of hydrogasoline by adsorption in H2atmosphere over/Zn O-Si O2-Al2O3[J]. Petroleum Processing and Petrochemicals,2013,44(7):17-21.
[11]曹赘,张军科. FCC汽油吸附脱硫剂的研究进展[J].山东化工,2016,45(4):34-36.Cao Yun,Zhang Junke. The research in adsorbents of adsorptive desulfurization of FCC gasoline[J]. Shandong Chemical Industry,2016,45(4):34-36.
[12]李林,李培明.改性活性炭用于汽油吸附脱硫工艺的研究[J].炼油与化工,2013,24(5):21-23.
[13]孙征,高雪,唐艳君.汽油吸附脱硫研究现状[J].气体净化,2013,13(1):9-12.
[14]Khan N A,Jhung S H. Low-temperature loading of Cu+species over porous metal-organic frameworks(MOFs)and adsorptive desulfurization with Cu+-loaded MOFs[J]. Journal of Hazardous Materials,2012,237-238:180-185.
[15]Chen N,Chen D,Wei F,et al. Effect of structures on the adsorption performance of cobalt metal organic framework obtained by microwave-assisted ball milling[J]. Chemical Physics Letters,2018,705:23-30.
[16]郝浩升,李若岩,顾斌斌,等. FCC催化汽油吸附脱硫技术的研究进展[J].应用化工,2013,42(1):156-160.Hao Haosheng,Li Ruoyan,Gu Binbin,et al. Research progress in adsorbtion desulfurization for technology FCC gasoline[J]. Applied Chemical Industry,2013,42(1):156.
[17]Ahmed I,Jhung S H. Adsorptive desulfurization and denitrogenation using metal-organic frameworks[J]. Journal of Hazardous Materials,2016,301:259-276.
[18]Jhung S H,Khan N A,Hasan Z. Analogous porous metalorganic frameworks:synthesis,stability and application in adsorption[J]. Cryst Eng Comm,2012,14(21):7099-7109.
[19]Fei H H,Rogow D L,Oliver S R J. Reversible anion exchange and catalytic properties of two cationic metalorganic frameworks based on Cu(Ⅰ)and Ag(Ⅰ)[J].Journal of the American Chemical Society,2010,132(20):7202-7209.
[20]Petit C,Bandosz T J. Exploring the coordination chemistry of MOF-graphite oxide composites and their applications as adsorbents[J]. Dalton Transactions,2012,41(14):4027-4035.
[21]Ahmed I,Jhung S H. Composites of metal-organic frameworks:preparation and application in adsorption[J]. Materials Today,2014,17(3):136-146.
[22]Furukawa S,Reboul J,Diring S,et al. Structuring of metalorganic frameworks at the mesoscopic/macroscopic scale[J]. Chemical Society Reviews,2014,43(16):5700-5734.
[23]Jia Shaoyi,Zhang Yanfei,Liu Yong,et al. Adsorptive removal of dibenzothiophene from model fuels over onepot synthesized PTA@MIL-101(Cr)hybrid material[J]. Journal of Hazardous Materials,2013,262(22):589-597.
[24]Aslam S,Subhan F,Yan Z,et al. Dispersion of nickel nanoparticles in the cages of metal-organic framework:an efficient sorbent for adsorptive removal of thiophene[J].Chemical Engineering Journal,2017,315:469-480.
[25]Achmann S,Hagen G,Hmmerle M,et al. Sulfur removal from low-sulfur gasoline and diesel fuel by metal-organic frameworks[J]. Chemical Engineering&Technology,2010,33(2):275-280.
[26]Liu Xiang,Wang Jingyan,Li Qingyuan,et al. Synthesis of rare earth metal-organic frameworks(Ln-MOFs)and their properties of adsorption desulfurization[J]. Journal of Rare Earths,2014,32(2):189-194.
[27]Tian Fuping,Ru Qiaofeng,Qiao Chenxia,et al. Adsorption desulfurization of model gasoline by metal-organic framework Ni3(BTC)2[J]. Journal of Energy Chemistry,2018,32:8-14.
[28]Peralta D,Chaplais G,Simon-Masseron A,et al. Metalorganic framework materials for desulfurization by adsorption[J]. Energy&Fuels,2012,26(8):4953-4960.
[29]Bagheri M,Masoomi M Y,Morsali A. High organic sulfur removal performance of a cobalt based metal-organic framework[J]. Journal of Hazardous Materials,2017,331:142-149.
[30]Zhao Zipeng,Zuhra Z,Qin Libo,et al. Confinement of microporous MOF-74(Ni)within mesoporousγ-Al2O3beads for excellent ultra-deep and selective adsorptive desulfurization performance[J]. Fuel Processing Technology,2018,176:276-282.
[31]Khan N A,Bhadra B N,Jhung S H. Heteropoly acid-loaded ionic liquid@metal-organic frameworks:effective and reusable adsorbents for the desulfurization of a liquid model fuel[J]. Chemical Engineering Journal,2018,334:2215-2221.
[32]徐闻聪.金属-有机骨架材料简便合成及其吸附脱硫应用[D].大连:大连理工大学,2016.Xu Wencong. Facile synthesis of metal-organic framework materials and their application in application in desulfurization by adsorption[D]. Dalian:Dalian University of Technology,2016.
[33]Xu W,Li G,Li W,et al. Facile room temperature synthesis of metal-organic frameworks from newly synthesized copper/zinc hydroxide and their application in adsorptive desulfurization[J]. Rsc Advances,2016,6(44):37530-37534.
[34]Yang Ke,Yan Yu,Chen Wen,et al. The high performance and mechanism of metal-organic frameworks and their composites in adsorptive desulfurization[J]. Polyhedron,2018,152:202-215.
[35]Wu Luoming,Xiao Jing,Wu Ying,et al. A combined experimental/computational study on the adsorption of organosulfur compounds over metal-organic frameworks from fuels[J]. Langmuir,2014,30(4):1080-1088.
[36]Blanco-Brieva G,Campos-Martin J M,Al-Zahrani S M,et al. Effectiveness of metal-organic frameworks for removal of refractory organo-sulfur compound present in liquid fuels[J]. Fuel,2011,90(1):190-197.
[37]Chen Zhiping,Ling Lixia,Wang Baojun,et al. Adsorptive desulfurization with metal-organic frameworks:a density functional theory investigation[J]. Applied Surface Science,2016,387:483-490.
[38]Li Yuxia,Jiang Wenjuan,Tan Peng,et al. What matters to the adsorptive desulfurization performance of metal-organic frameworks?[J]. The Journal of Physical Chemistry C,2015,119(38):21969-21977.
[39]Cychosz K A,Wong-Foy A G,Matzger A J. Liquid phase adsorption by microporous coordination polymers:removal of organosulfur compounds[J]. Journal of the American Chemical Society,2008,130(22):6938-6939.
[40]Khan N A,Kim C M,Jhung S H. Adsorptive desulfurization using Cu-Ce/metal-organic framework:improved performance based on synergy between Cu and Ce[J]. Chemical Engineering Journal,2017,311:20-27.
[2]Can F,Travert A,Ruaux V,et al. FCC gasoline sulfur reduction additives:mechanism and active sites[J]. Journal of Catalysis,2007,249(1):79-92.
[3]Jain M,Gupta S K. Desulfurization of FCC gasoline by using spiral wound pervaporation module:removal of different types of sulfur containing species[J]. Chemical Engineering Research and Design,2018,136:105-118.
[4]Valla J A,Lappas A A,Vasalos I A,et al. Feed and process effects on the in situ reduction of sulfur in FCC gasoline[J]. Applied Catalysis A:General,2004,276(1/2):75-87.
[5]方柳亚,王国清,石国芳,等.汽油脱硫的技术现状及发展趋势[J].武汉工程大学学报,2016,38(3):218-225.Fang Liuya,Wang Guoqing,Shi Guofang,et al. Present situation and development trend in gasoline desulfurization technology[J]. Journal of Wuhan Institute of Technology,2016,38(3):218-225.
[6]Mortaheb H R,Ghaemmaghami F,Mokhtarani B. A review on removal of sulfur components from gasoline by pervaporation[J]. Chemical Engineering Research and Design,2012,90(3):409-432.
[7]魏书梅,张晓飞,徐亚荣. FCC汽油脱硫工艺技术研究进展[J].当代化工,2017,46(5):917-920.Wei Shumei,Zhang Xiaofei,Xu Yarong. Research progress of desulfurization technology of FCC gasoline[J]. Contemporary Chemical Industry,2017,46(5):917-920.
[8]Khan M R,Aramco Saudi,Arabia Saudi,et al. Sulfur removal from heavy and light petroleum hydrocarbon by selective oxidation[J]. Advances in Clean Hydrocarbon Fuel Processing,2011:243-261.
[9]张国宾,许振宁,周广林,等.催化加氢汽油深度吸附脱硫性能研究[J].精细石油化工,2016,33(3):55-59.Zhang Guobin,Xu Zhenning,Zhou Guanglin,et al. Study on deep adsorptive desulfurization of hydrogasoline[J]. Speciality Petrochemicals,2016,33(3):55-59.
[10]周广林,孙文艳,姜伟丽,等. Ni/Zn O-Si O2-Al2O3吸附剂上加氢汽油的深度临氢吸附脱硫[J].石油炼制与化工,2013,44(7):17-21.Zhou Guanglin,Sun Wenyan,Jiang Weili,et al. Deep desulferization of hydrogasoline by adsorption in H2atmosphere over/Zn O-Si O2-Al2O3[J]. Petroleum Processing and Petrochemicals,2013,44(7):17-21.
[11]曹赘,张军科. FCC汽油吸附脱硫剂的研究进展[J].山东化工,2016,45(4):34-36.Cao Yun,Zhang Junke. The research in adsorbents of adsorptive desulfurization of FCC gasoline[J]. Shandong Chemical Industry,2016,45(4):34-36.
[12]李林,李培明.改性活性炭用于汽油吸附脱硫工艺的研究[J].炼油与化工,2013,24(5):21-23.
[13]孙征,高雪,唐艳君.汽油吸附脱硫研究现状[J].气体净化,2013,13(1):9-12.
[14]Khan N A,Jhung S H. Low-temperature loading of Cu+species over porous metal-organic frameworks(MOFs)and adsorptive desulfurization with Cu+-loaded MOFs[J]. Journal of Hazardous Materials,2012,237-238:180-185.
[15]Chen N,Chen D,Wei F,et al. Effect of structures on the adsorption performance of cobalt metal organic framework obtained by microwave-assisted ball milling[J]. Chemical Physics Letters,2018,705:23-30.
[16]郝浩升,李若岩,顾斌斌,等. FCC催化汽油吸附脱硫技术的研究进展[J].应用化工,2013,42(1):156-160.Hao Haosheng,Li Ruoyan,Gu Binbin,et al. Research progress in adsorbtion desulfurization for technology FCC gasoline[J]. Applied Chemical Industry,2013,42(1):156.
[17]Ahmed I,Jhung S H. Adsorptive desulfurization and denitrogenation using metal-organic frameworks[J]. Journal of Hazardous Materials,2016,301:259-276.
[18]Jhung S H,Khan N A,Hasan Z. Analogous porous metalorganic frameworks:synthesis,stability and application in adsorption[J]. Cryst Eng Comm,2012,14(21):7099-7109.
[19]Fei H H,Rogow D L,Oliver S R J. Reversible anion exchange and catalytic properties of two cationic metalorganic frameworks based on Cu(Ⅰ)and Ag(Ⅰ)[J].Journal of the American Chemical Society,2010,132(20):7202-7209.
[20]Petit C,Bandosz T J. Exploring the coordination chemistry of MOF-graphite oxide composites and their applications as adsorbents[J]. Dalton Transactions,2012,41(14):4027-4035.
[21]Ahmed I,Jhung S H. Composites of metal-organic frameworks:preparation and application in adsorption[J]. Materials Today,2014,17(3):136-146.
[22]Furukawa S,Reboul J,Diring S,et al. Structuring of metalorganic frameworks at the mesoscopic/macroscopic scale[J]. Chemical Society Reviews,2014,43(16):5700-5734.
[23]Jia Shaoyi,Zhang Yanfei,Liu Yong,et al. Adsorptive removal of dibenzothiophene from model fuels over onepot synthesized PTA@MIL-101(Cr)hybrid material[J]. Journal of Hazardous Materials,2013,262(22):589-597.
[24]Aslam S,Subhan F,Yan Z,et al. Dispersion of nickel nanoparticles in the cages of metal-organic framework:an efficient sorbent for adsorptive removal of thiophene[J].Chemical Engineering Journal,2017,315:469-480.
[25]Achmann S,Hagen G,Hmmerle M,et al. Sulfur removal from low-sulfur gasoline and diesel fuel by metal-organic frameworks[J]. Chemical Engineering&Technology,2010,33(2):275-280.
[26]Liu Xiang,Wang Jingyan,Li Qingyuan,et al. Synthesis of rare earth metal-organic frameworks(Ln-MOFs)and their properties of adsorption desulfurization[J]. Journal of Rare Earths,2014,32(2):189-194.
[27]Tian Fuping,Ru Qiaofeng,Qiao Chenxia,et al. Adsorption desulfurization of model gasoline by metal-organic framework Ni3(BTC)2[J]. Journal of Energy Chemistry,2018,32:8-14.
[28]Peralta D,Chaplais G,Simon-Masseron A,et al. Metalorganic framework materials for desulfurization by adsorption[J]. Energy&Fuels,2012,26(8):4953-4960.
[29]Bagheri M,Masoomi M Y,Morsali A. High organic sulfur removal performance of a cobalt based metal-organic framework[J]. Journal of Hazardous Materials,2017,331:142-149.
[30]Zhao Zipeng,Zuhra Z,Qin Libo,et al. Confinement of microporous MOF-74(Ni)within mesoporousγ-Al2O3beads for excellent ultra-deep and selective adsorptive desulfurization performance[J]. Fuel Processing Technology,2018,176:276-282.
[31]Khan N A,Bhadra B N,Jhung S H. Heteropoly acid-loaded ionic liquid@metal-organic frameworks:effective and reusable adsorbents for the desulfurization of a liquid model fuel[J]. Chemical Engineering Journal,2018,334:2215-2221.
[32]徐闻聪.金属-有机骨架材料简便合成及其吸附脱硫应用[D].大连:大连理工大学,2016.Xu Wencong. Facile synthesis of metal-organic framework materials and their application in application in desulfurization by adsorption[D]. Dalian:Dalian University of Technology,2016.
[33]Xu W,Li G,Li W,et al. Facile room temperature synthesis of metal-organic frameworks from newly synthesized copper/zinc hydroxide and their application in adsorptive desulfurization[J]. Rsc Advances,2016,6(44):37530-37534.
[34]Yang Ke,Yan Yu,Chen Wen,et al. The high performance and mechanism of metal-organic frameworks and their composites in adsorptive desulfurization[J]. Polyhedron,2018,152:202-215.
[35]Wu Luoming,Xiao Jing,Wu Ying,et al. A combined experimental/computational study on the adsorption of organosulfur compounds over metal-organic frameworks from fuels[J]. Langmuir,2014,30(4):1080-1088.
[36]Blanco-Brieva G,Campos-Martin J M,Al-Zahrani S M,et al. Effectiveness of metal-organic frameworks for removal of refractory organo-sulfur compound present in liquid fuels[J]. Fuel,2011,90(1):190-197.
[37]Chen Zhiping,Ling Lixia,Wang Baojun,et al. Adsorptive desulfurization with metal-organic frameworks:a density functional theory investigation[J]. Applied Surface Science,2016,387:483-490.
[38]Li Yuxia,Jiang Wenjuan,Tan Peng,et al. What matters to the adsorptive desulfurization performance of metal-organic frameworks?[J]. The Journal of Physical Chemistry C,2015,119(38):21969-21977.
[39]Cychosz K A,Wong-Foy A G,Matzger A J. Liquid phase adsorption by microporous coordination polymers:removal of organosulfur compounds[J]. Journal of the American Chemical Society,2008,130(22):6938-6939.
[40]Khan N A,Kim C M,Jhung S H. Adsorptive desulfurization using Cu-Ce/metal-organic framework:improved performance based on synergy between Cu and Ce[J]. Chemical Engineering Journal,2017,311:20-27.
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