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CuNaY分子筛的制备及其催化甲醇氧化羰基化 被引量:6

Preparation and catalytic activity of CuNaY zeolite in oxidative carbonylation of methanol
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摘要 采用多种铜盐溶液与NaY分子筛离子交换制备了CuNaY催化剂,通过加入氨水提高溶液pH值以及高温活化,显著提高了该催化剂对甲醇氧化羰基化合成碳酸二甲酯的反应活性。不同的铜盐水溶液交换制备的CuNaY催化剂催化活性不同,添加氨水将溶液pH值调节为11后,离子交换制备的CuNaY催化剂的催化活性和DMC选择性明显升高且趋于一致。经元素分析、XRD、XPS和H2-TPR表征可知,加入氨水可促进Cu2+离子交换的进行,提高CuNaY催化剂中Cu的交换量,催化剂中约75%的Cu2+定位于分子筛的超笼中。 Ammonia was added to the ion-exchange solution to adjust the pH in the preparation of CuNaY catalyst by ion-exchange of NaY zeolite with Cu2+ aqueous solution, and then the ion-exchanged CuNaY was activated by high temperature calcinations. The effect of anion type in the Cu2+ aqueous solution on the ion- exchange process and catalytic performance of the catalyst were studied, it is shown that the catalytic activity of CuNaY ion-exchanged of NaY with aqueous solution of copper salts was low, when the pH of ion-exchange solution was adjusted to 11 by adding ammonia, the catalytic activity and selectivity of DMC increased greatly. Based on the characterization of the microstructure of the catalyst by elementary analysis, XRD, XPS and H2- TPR techniqs, it is shown that by adding ammonia into the ion-exchange solution, the ion-exchanged reaction is promoted, resulting in the increase of the ion-exchanged Cu2+, 75% of the Cu2+ in the catalyst located in the supercages of the Y zeolite.
作者 王瑞玉 李忠
机构地区 中国矿业大学江苏省煤基CO 太原理工大学煤科学与技术教育部及山西省重点实验室
出处 《燃料化学学报》 EI CAS CSCD 北大核心 2013年第11期1361-1366,共6页 Journal of Fuel Chemistry and Technology
基金 国家自然科学基金(20976113) 中央高校基本科研业务费专项资金(2010QNA11) 中国矿业大学连云港徐圩新区高新技术研究院创新创业基金(2011KDGXYJJ06)
关键词 离子交换 CuNaY催化剂 氧化羰基化 甲醇 铜氨溶液 碳酸二甲酯 ion-exchange CuNaY catalyst oxidative carbonylation methanol copper ammonia dimethylcarbonate
分类号 O643 [理学—物理化学]
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参考文献23

  • 1DELLEDONNE D, RIVETTI F, ROMANO U. Developments in the production and application of dimethyl carbonate [ J ]. Appl Catal A: Gen, 2001, 221(1/2): 241-246.
  • 2TOMISHIGE K, SAKAIHORI T, SAKAI S, FUJIMOTO K. Dimethyl carbonate synthesis by oxidative carbonylation on activated carbon supported CuC12 catalysts: Catalytic properties and structural change[J]. Appl Catal A: Gen, 1999, 181( 1 ) : 95-102.
  • 3JIANG R X, WANG S F, ZHAO X Q, WANG Y J, ZHANG C F. The effects of promoters on catalytic properties and deactivation- regeneration of the catalyst in the synthesis of dimethyl carbonate[J]. Appl Catal A: Gen, 2003, 238( 1 ) : 131-139.
  • 4LI Z, XIE K C, SLADE R C T. Studies of interaction between CuC1 and HY zeolite for preparing heterogeneous Cu I catalyst[ J]. Appl Catal A: Gen, 2001, 209(1/2): 107-115.
  • 5DRAKE I J, FUJDALA K L, BELL A T, TILLEY T D. Dimethyl carbonate production via the oxidative carbonylation of methanol over Cu/ SiO2 catalysts prepared via molecular precursor grafting and chemical vapor deposition approaches [J]. J Catal, 2005, 230 ( 1 ) : 14-27.
  • 6DRAKE I J, ZHANG Y H, BRIGGS D, LIM B, CHAU T, BELL A T. The local environment ofCu+ in Cu-Y zeolite and its relationship to the synthesis of dimethyl carbonate[J]. J Phys Chem B, 2006, 110(24) : 11654-11664.
  • 7RICHTER M, FAIT M J G, ECKELT R, SCHREIER E, SCHNEIDER M, POHL M-M, FRIKE R. Oxidative gas phase carbonylation of methanol to dimethyl carbonate over chloride-free Cu-impregnated zeolite Y catalysts at elevated pressure [ J ]. Appl Catal B: Environ, 2007, 73(3/4) : 269-281.
  • 8RICHTER M, FAIT M J G, ECKELT R, SCHNEIDER M, RADNIK J, HEIDEMANN D, FRICKE R. Gas-phase carbonylation of methanol to dimethyl carbonate on chloride-free Cu-precipitated zeolite Y at normal pressure[ J]. J Catal, 2007, 245( 1 ) : 11-24.
  • 9ZHANG Y H, DRAKE I J, BRIGGS D N, BELL A T. Synthesis of dimethyl carbonate and dimethoxy methane over Cu-ZSM-5 [ J]. J Catal, 2006, 244(2) : 219-229.
  • 10ZHANG Y H, BRIGGS D N, SMITE D, BELL A T. Effects of zeolite structure and composition on the synthesis of dimethyl carbonate by oxidative carbonylation of methanol on Cu-exchanged Y, ZSM-5, and Mordenite[J]. J Catal, 2007, 251(2) : 443-452.

二级参考文献44

  • 1[1]Fritz A, Pitchon V. Appl Catal B, 1997, 13(1): 1
  • 2[2]Shichi A, Katagi K, Satsuma A, Hattori T. Appl Catal B, 2000, 24(2): 97
  • 3[3]Torre-Abreu C, Ribeiro M F, Henriques C, Delahay G. Appl Catal B, 1997, 12(2/3): 249
  • 4[4]Campa M C, Indovina V, Minelli G, Moretti G, Pettiti I, Porta P, Riccio A. Catal Lett, 1994, 23(1-2): 141
  • 5[6]Tabata T, Ohtsuka H, Sabatino L M F, Bellussi G. Microporous Mesoporous Mater, 1998, 21(4-6): 517
  • 6[7]Schmidt R, Akporiaye D, Stocker M, Ellestad O H. J Chem Soc, Chem Commun, 1994, (12): 1493
  • 7[9]Beck J S, Vartuli J C, Roth W J, Leonowicz M E, Kresge C T, Schmitt K D, Chu C T W, Olson D H, Sheppard E W, McCullen S B, Higgins J B, Schlenker J L. J Am Chem Soc, 1992, 114(27): 10834
  • 8[11]Lee C-Y, Ha B-H. Stud Surf Sci Catal, 1994, 84C: 1563
  • 9[12]Liu D-J, Robota H J. Appl Catal B, 1994, 4(2/3): 155
  • 10[13]Torre-Abreu C, Ribeiro M F, Henriques C, Ribeiro F R. Appl Catal B, 1997, 11(3/4): 383

共引文献18

同被引文献71

  • 1Ibrahim K, Hall A. New occurrences of diagenetic faujasite in the Quaternary tuffs of northeast Jordan[J]. European Journal of Mineralogy, 1995, 7:1129-1135.
  • 2Song H, Wan X, Dai M, et al. Deep desulfurization of model gasoline by selective adsorption over Cu-Ce bimetal ion-exchanged Y zeolite[J]. Fuel Processing Technology, 2013, 116:52-62.
  • 3Takahashi A, Yang R T, Munson C L, et al. Cu(Ⅰ)-Y-zeolite as a superior adsorbent for diene/olefin separation[J]. Langmuir, 2001, 17(26):8405-8413.
  • 4Hernández-Maldonado A J, Yang F H, Qi G. et al. Desulfurization of transportation fuels by π-complexation sorbents:Cu(Ⅰ)-, Ni(Ⅱ)-, and Zn(Ⅱ)-zeolites[J]. Applied Catalysis B:Environmental, 2005, 56(1-2):111-126.
  • 5Ochońska J, McClymont D, Jod?owski P J, et al. Copper exchanged ultrastable zeolite Y:A catalyst for NH3-SCR of NOx from stationary biogas engines[J]. Catalysis Today, 2012, 191(1):6-11.
  • 6Kieger S, Delahay G, Coq B. Influence of co-cations in the selective catalytic reduction of NO by NH3 over copper exchanged faujasite zeolites[J]. Applied Catalysis B:Environmental, 2000, 25(1):1-9.
  • 7King S T. Reaction mechanism of oxidative carbonylation of methanol to dimethyl carbonate in Cu-Y zeolite[J]. Journal of Catalysis, 1996, 161(2):530-538.
  • 8王佳臻, 郑华艳 孟凡会, 等. 制备方法对CuY催化剂活性组分Cu落位及催化性能影响[C]//中国化学会第28届学术年会. 成都, 2012.
  • 9Gentry S J, Hurst N W, Jones A. Temperature programmed reduction of copper ions in zeolites[J]. Journal of the Chemical Society, Faraday Transactions 1:Physical Chemistry in Condensed Phases, 1979, 75:1688-1699.
  • 10Huang S Y, Chen P Z, Yan B, et al. Modification of Y zeolite with alkaline treatment:Textural properties and catalytic activity for diethyl carbonate synthesis[J]. Industrial & Engineering Chemistry Research, 2013, 52(19):6349-6356.

引证文献6

二级引证文献16

燃料化学学报
2013年 第11期

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