| H-SAPO-34分子筛磷改性机理及作用 |
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| 引用本文: | 宋守强,李黎声,李明罡,张凤美,舒兴田.H-SAPO-34分子筛磷改性机理及作用[J].石油学报(石油加工),2014,30(3):398-407. |
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| 作者姓名: | 宋守强 李黎声 李明罡 张凤美 舒兴田 |
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| 作者单位: | 1 中海油研究总院, 北京 100027;2 中国石化 石油化工科学研究院, 北京 100083 |
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| 摘 要: | 选取n(Si)/n(Si+Al+P)为0120和0086两种H SAPO 34分子筛进行磷改性,制备出一系列(n(P)/n(Si)为033~167)磷改性H SAPO 34分子筛样品。采用XRD、XRF、SEM、BET、NH3 TPD和29Si NMR、27Al NMR、31P NMR手段分析磷改性H SAPO 34分子筛的物相、孔结构和酸性以及骨架元素Si、P、Al的化学配位,并通过脉冲微反实验考察磷改性对H SAPO 34分子筛催化甲醇制烯烃(MTO)反应活性和烃产物分布及选择性的影响。〖JP2〗结果表明,对H SAPO 34进行磷改性时,在高温水蒸气作用下,磷氧化物能够均匀分布在H SAPO 34〖JP〗分子筛晶体的外表面,并随机与表面的骨架Al、P发生化学配位,引起骨架结构中的P-O-Al键和Si-OH-Al键断裂;随着n(P)/n(Si)增加,表面骨架铝的配位数提高,促进了AlPO4鳞石英相生成,以及Si-O-Al键断裂和Si(OSi)4无定形相析出,伴随着孔结构破坏、相对结晶度下降以及酸量降低。采用n(P)/n(Si)为033~133范围内的磷改性H SAPO 34分子筛催化MTO反应,随着n(P)/n(Si)的增加,产物中C4、C5烃的含量有所下降,C2烃的含量明显增加,择形性提高,乙烯选择性提高。
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| 关 键 词: | SAPO-34 磷改性机理 乙烯 MTO 择形 |
Effect and Mechanism of Phosphorus Modification on H SAPO 34 Molecular Sieves |
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| SONG Shouqiang,LI Lisheng,LI Minggang,ZHANG Fengmei,SHU Xingtian.Effect and Mechanism of Phosphorus Modification on H SAPO 34 Molecular Sieves[J].Acta Petrolei Sinica (Petroleum Processing Section),2014,30(3):398-407. |
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| Authors: | SONG Shouqiang LI Lisheng LI Minggang ZHANG Fengmei SHU Xingtian |
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| Affiliation: | 1 CNOOC Research Institute, Beijing 100027, China;
2 Research Institute of Petroleum Processing, SINOPEC, Beijing 100083, China |
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| Abstract: | A series of P modified H SAPO 34 with n(P)/n(Si) in the range of 033-167 were prepared by saturating impregnation of H SAOPO 34, whose n(Si)/n(Si+Al+P) were 0120 and 0086, respectively, and characterized by means of XRD, XRF, SEM, BET, NH3 TPD and 29Si NMR, 27Al NMR, 31P NMR to investigate the effects of phosphorus modification on the phase, pore structure and acidity and chemical coordinates of Si, Al and P in framework of P modified H SAPO 34 Catalytic performances of those samples in methanol to olefin (MTO) reaction, such as catalytic activity, carbon number distribution of hydrocarbon products and their selectivity, were evaluated by the experiments in pulse feed micro reactor. The results showed that during the phosphorus modification of H SAPO 34 under the conditions of 100% steam and 550℃, the loaded phosphorus oxides were distributed uniformly on the surface of H SAPO 34 crystal and coordinated with surface framework Al and P atoms in probability to promote the cleavage fracture of P-O-Al and Si-OH-Al bonds. With the increase 〖JP2〗of phosphorus oxide loadings (n(P)/n(Si)),〖JP〗 the coordinate number of surface framework Al with phosphorus oxides increased and precipitation of AlPO4 tridymite and the formation of Si(OSi)4 amorphous phase and the cleavage fracture of Si-OH-Al bonds were accelerated, along with the decrease of relative crystallinity and acid capacity and decline of pore structure. By using the P modified H SAPO 34 of n(P)/n(Si) in the suitable range of 033-133 as catalyst, the shape selectivity in MTO reaction was enhanced with the increase of n(P)/n(Si), that is, in hydrocarbon product C4, C5 contents decreased and C2 content increased, and the ethylene selectivity increased. |
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| Keywords: | SAPO-34 mechanism of phosphorus modification ethylene MTO shape-selectivity |
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