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1.
莫来石管上丝光沸石膜的合成与渗透汽化性能 总被引:1,自引:0,他引:1
采用不添加有机模板剂、配比为n_(Na_2O):n_(Al_2O_3):n_(SiO_3):n_(H_2O)=0.25:0.015~0.1:1:15~60溶胶,在涂有晶种的多孔莫来石管上水热合成出了丝光沸石膜。制备的膜经XRD和SEM表征。考察了合成时间、硅铝比、水硅比和硅源等因素对膜生长及其性能的影响。合成时间的延长有利于丝光沸石c轴方向的优先生长,然而优先取向生长膜层并未提高膜在水/乙醇分离体系中的渗透通量和选择性。优化条件下合成的膜具有较高的渗透汽化性能,在348 K、水/乙醇(10/90,W/W)混合溶液中的渗透通量和分离因子分别为0.70 kg·m~(-2)·h~(-1)。和860。基于XRD和SEM表征结果,高的渗透汽化性能可归结于在莫来石支撑层与较为疏松的表面晶体层之间形成的致密中间层。 相似文献
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高渗透性能丝光沸石膜的合成及在醇/水分离体系中的应用 总被引:7,自引:0,他引:7
以四乙基溴化铵为模板剂,用原位水热合成法在α-Al2O3陶瓷\r\n管上合成出丝光沸石膜,系统研究了合成母液的组成、晶化时间、老化\r\n时间、硅源和铝源以及氟化钠助剂的添加等因素对丝光沸石膜成膜和表\r\n面形貌的影响.结果表明,老化可使成膜沸石的晶粒从30μm减小到5μ\r\nm;添加氟化钠也能减小晶粒的大小;使用异丙醇铝为铝源能制得高度\r\n定向的丝光沸石膜.提出了丝光沸石膜的成膜机理,认为成核发生在载\r\n体表面,凝胶层的晶化过程是从载体的表面开始,不断转化,充分生长后达到凝胶层的表面. 丝光沸石膜对醇/水混合体系的分离研究表明,水/甲醇、水/乙醇、水/正丙醇和水/异丙醇的分离因子分别可达到1500(323 K,水含量xw=15%),4200(343 K,xw=15%),4200(343 K,xw=50%)和3400(343 K,xw=50%),所合成的丝光沸石膜能选择性地透过水,对醇/水混合物有较高的分离系数. 相似文献
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用水热法在氧化铝陶瓷膜管上原位合成丝光沸石膜 总被引:2,自引:0,他引:2
The mordenite membrane was prepared on a α-Al 2O 3 tube by in situ hydrothermal synthesis. The crystallization was carried out at 443 K for 2~4 days. Silica sol and sodium aluminate were used as the sources of silica and alumina, respectively, and tetraethylammonium bromide (TEABr) as the template. The molar composition of the parent solution was 11 4Na 2O∶1 0Al 2O 3∶40SiO 2∶2500H 2O∶1 5TEABr. SEM and XRD were used to characterize the powder product and the composite membrane. The synthesized mordenite membrane proved to be in a full coverage and an excellent intergrowth. The mordenite crystals were about 20~30 μm and the thickness of the mordenite membrane was 30~40 μm. Based on the SEM pictures of the membrane in the early stage of hydrothermal synthesis, a growth model for the mordenite membrane was assumed. At first a gel layer was formed on the surface of the alumina tube. Nucleation took place in the gel layer but not at the interface of the gel layer and bulk solution. The gel layer provided the nutrients for the growth of zeolite crystals. After the gel layer was consumed completely, the zeolite crystals or membrane were exposed to the bulk solution. The membrane separation test on the mordenite membrane showed that the permeances of pure H 2 and N 2 at 298 K were 6 92×10 -7 and 1 81×10 -7 mol/(m 2·s·Pa), respectively. The ideal selectivity of H 2/N 2 was 3 82, which is higher than that of Knudsen mechanism. It suggested that the mordenite membrane had the ability of molecular sieving. 相似文献
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小晶粒丝光沸石合成的研究 总被引:1,自引:0,他引:1
丝光沸石早在20世纪40年代就由Barfer首次合成出来,由于丝光沸石具有高的硅铝比,因而有优良的耐热、耐酸性能,工业上广泛用作气体或液体混合物分离的吸附剂及石油化工与精细化工催化剂.相对于常规粒度分子筛,小晶粒分子筛具有独特的结构特性,如:更大的外表面积、更多的外表面活性中心和暴露在外的晶胞、短而规整的孔道,从而决定了其具有更大的转化大分子能力,及在其上合成后改性技术更易实现.这些特性使得小晶粒分子筛用于催化裂化、加氢裂化、链烷烃的加氢异构化等炼油工业过程中.因此,如何合成粒径更小以至成为纳米级的丝光沸石近年来引起了人们极大的兴趣,成为催化领域目前受重视的研究课题. 相似文献
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丝光沸石合成与表征的研究进展 总被引:8,自引:0,他引:8
丝光沸石 ( MOR)是人类认识最早的沸石之一 ,分天然和合成两类 .1 864年 How首次命名天然丝光沸石[1] . 1 948年 ,Barrer等 [2 ] 用碳酸钠为矿化剂 ,使混合硅酸凝胶与铝酸钠水溶液在 2 65~ 2 95℃下水热晶化 ,首次合成出丝光沸石 .丝光沸石具有优良的耐热、耐酸和抗水汽性能 ,工业上广泛用作气体或液体混合物分离的吸附剂及石油化工与精细化工催化剂 .1丝光沸石结构丝光沸石中由 5~ 3结构单元连接的四元环和五元环 (五元环占优势 )构成椭圆形 1 2元环主通道 ,主通道间有八元环通道沟通 .1 2元环直筒形通道尺寸 0 .695× 0 .5 81 nm,八元… 相似文献
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沸石膜的合成、表征与应用 总被引:3,自引:0,他引:3
综述了沸石膜的合成、表征及应用。沸石膜合成最常用的方法为水热合成法,并相继发展了二次生长和微波合成法。XRD、SEM、EPMA及气体渗透为表征沸石膜常用的手段。沸石膜在分离、膜反应、催化及光学材料等方面具有广阔的应用前景。最后对沸石膜的发展进行了展望。 相似文献
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干法合成纯硅丝光沸石 总被引:2,自引:0,他引:2
在Na2O-SiO2-EA体系中利用干法首次成功地合成了纯硅丝光沸石,采用XRD,SEM及IR等仪器分析方法对产物的结构,形貌,红外有架振动及稳定性等进行了表征。实验结果表明,干法合成的纯硅丝光沸石具有良好的耐酸性;与水热体系合成的丝光沸石相比,干法得到的丝光沸石的晶胞体积出现较明显的收缩趋势。 相似文献
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采用市售廉价大孔α-Al2O3管作为基质材料,通过热浸渍法在管外表面涂敷晶种,随后在无模板剂体系下,利用新型的间歇式水热合成法制备丝光沸石膜。对比了传统加热和间歇式加热对丝光沸石膜形貌、结构及渗透蒸发异丙醇脱水分离性能的差异。考察了合成液中Na2O/SiO2、SiO2/Al2O3和NaF/SiO2物质的量之比在间歇式水热合成下对丝光沸石膜的影响。研究结果表明,当合成液中Na2O/SiO2、SiO2/Al2O3和NaF/SiO2物质的量之比分别为0.24、16.7和0.25时,制备的丝光沸石膜渗透蒸发异丙醇脱水分离性能最佳,在75℃下,对异丙醇/水(9∶1,w/w)的渗透通量达5.60 kg·m-2·h-1,水对异丙醇的分离因数大于10 000。 相似文献
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采用市售廉价大孔α-Al2O3管作为基质材料,通过热浸渍法在管外表面涂敷晶种,随后在无模板剂体系下,利用新型的间歇式水热合成法制备丝光沸石膜。对比了传统加热和间歇式加热对丝光沸石膜形貌、结构及渗透蒸发异丙醇脱水分离性能的差异。考察了合成液中Na2O/SiO2、SiO2/Al2O3和NaF/SiO2物质的量之比在间歇式水热合成下对丝光沸石膜的影响。研究结果表明,当合成液中Na2O/SiO2、SiO2/Al2O3和NaF/SiO2物质的量之比分别为0.24、16.7和0.25时,制备的丝光沸石膜渗透蒸发异丙醇脱水分离性能最佳,在75℃下,对异丙醇/水(9:1,w/w)的渗透通量达5.60 kg·m-2·h-1,水对异丙醇的分离因数大于10 00... 相似文献
10.
采用热涂-浸渍法在大孔α-Al2O3载体上形成薄且致密的晶种层,然后在不添加有机模板剂的含氟条件下二次水热生长法制备了高性能丝光沸石分子筛膜,考察了NaF含量、硅/铝比对丝光沸石分子筛膜形貌和性能的影响.将摩尔组成为6Na2O:1.2Al2O3:30SiO2:780H2O:1.5NaF条件下合成的丝光沸石分子筛膜用于渗透汽化分离91.5%乙醇/水体系,在渗透汽化温度70°C、真空度为400Pa条件下,分离因子和通量分别达到了6872和0.51kg/(m2·h);另外,在分离异丙醇/水、乙酸/水体系时,渗透侧水浓度达到了100%(在色谱检测极限范围内),该分离系数是目前报道的丝光沸石分子筛膜分离的最佳值,并在乙酸浓度为1mol/L的乙醇水溶液中表现出良好的耐酸性.该膜有望作为膜反应器在乙酸乙酯等酯类的生产中大大提高转化率. 相似文献
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Xiaohui Su Gang Li Ruisen Lin Eiichi Kikuchi Masahiko Matsukata 《Frontiers of Chemistry in China》2006,1(2):179-182
Mordenite composite membranes were prepared by means of coating a porous α-alumina support with nanosized mordenite seeds
followed by hydrothermal crystallization. A systematic investigation was performed on the influence of several factors such
as ageing of the reaction mixture, alkalinity, salt addition and temperature on the formation of a mordenite membrane on the
seeded support. The ageing of the reaction mixture reduces the growth rate of mordenite crystal along a-axis and b-axis but hardly influences the growth rate along c-axis. As a result, the boundaries between the surface crystals become a little larger with prolonging the period of ageing
time. The growth rate of the mordenite crystal along individual axes increases first and then decreases with increasing concentration
of sodium hydroxide. A higher alkalinity is unfavorable for the formation of a continuous mordenite membrane. The addition
of salt in the reaction mixture has different effect on the growth rate of the mordenite crystal along each axis. With increasing
the amount of salt, there was hardly influence on the growth rate along c-axis, whereas an obvious decline was observed in the growth rate along either a-axis or b-axis, which enlarges the boundaries between the surface crystals. The growth rate of the mordenite crystal increases more
along c-axis than that along a-axis or b-axis with increasing temperature for hydrothermal crystallization. The use of a temperature as high as 473 K produces a membrane
composed of bar-like crystals with larger boundaries.
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Translated from Journal of Zhejiang University (Science Edition), 2005, 32(4) (in Chinese) 相似文献