1)H-mordenite氢型丝光沸石
1.2,6-Dimethyl-7-octenyl 2-alkyl or 2-hydroxyalkyl ethers were synthesized via addition reaction of dihydromyrcene with alcohols catalyzed by H-Mordenite.以氢型丝光沸石为催化剂,二氢月桂烯与单醇或二醇加成反应生成2,6-二甲基-7-辛烯-2-烷基或羟烷基醚。
2.Alkylation of toluene with tert-butyl alcohol was carried out in a 100 mL stainless steel autoclave equipped with a stirrer,using H-mordenite supported magnesium oxide(MgO/HM) as catalyst.以氢型丝光沸石(HM)负载MgO制备了MgO/HM催化剂,在100mL高压釜中进行甲苯与叔丁醇的烷基化反应,考察了MgO负载量和反应条件对甲苯与叔丁醇烷基化反应的影响。
3.Study on Selective Alkylation of Guaiacol with Camphene over H-Mordenite;本文研究了氢型丝光沸石催化愈创木酚(1)与莰烯(2)的选择性烷基化反应。
英文短句/例句
1.FLOW-DTA ADSORPTIVE CALORIMETRIC SYSTEM Ⅱ.STUDIES OF ADSORPTION HEATS ON H-MORDENITE流动-差热吸附量热系统Ⅱ.氢型丝光沸石吸附热的研究
2.NEW CATALYTIC MATERIAL:MORDENITE COATING ON METAL Cr SURFACE新型催化材料丝光沸石金属铬覆盖物
3.It mainly consists of clinoptilolite ( Cp ) and mordenite ( Mdn ) .该矿主要由斜发沸石(Cp)和丝光沸石(Mdn)组成。
4.Studies on Structure of Different Mordenites and Their Properties of Adsorption、Ion Exchange and Catalysis不同类型丝光沸石的结构及其吸附、离子交换和催化性质的研究
5.Study on Synthetic Methylamine over Natural Mordenite;天然丝光沸石合成甲胺催化剂的研究
6.Study on Photocatalytic Oxidation of 2-chlorophenl with TiO_2 Thin Film Supported by Feather Zeolite;丝光沸石负载TiO_2膜光催化氧化邻氯苯酚的研究
7.Mordenite Membranes: Preparation, Modification and Their Pervaporation Performance;丝光沸石膜的制备、改性和渗透汽化性能的研究
8.Synthesis of MWW-Type Metallosilicates and High-Silica MOR Zeolites;MWW结构杂原子分子筛以及高硅丝光沸石的合成
9.Synthesis and Characterization of Hierarchical-Structured Mordenite多级孔道丝光沸石分子筛的合成与表征
10.Effect of Mordenite Modified by Rare Earths on Isopropylation of Refined Naphthalene稀土修饰丝光沸石对精萘异丙基化反应的影响
11.Study on the adsorption capacity of mordenite zeolite toward calcium ion丝光沸石对钙离子交换吸附能力的研究
12.The Comprehensive Development and Utilization Direction of Mordenite in Zhangwu of Fuxin Area阜新彰武丝光沸石综合开发利用方向研究
13.Synthesis of Hollow-structured Mesoporous Mordenite Crystals with a Carbon Template以多孔炭为模板合成中空介孔丝光沸石
14.Effect of pretreatment on natural mordenite structure预处理条件对天然丝光沸石结构影响的研究
15.Hydrodealkylation of C_9 Aromatics on Mordenite Zeolite丝光沸石分子筛催化剂上C_9芳烃脱烷基的研究
16.Photocatalytic Decomposition of Hydrogen Sulfide to Produce Hydrogen over CdS/Al-MCM-41 PhotocatalystAl-MCM-41沸石负载纳米CdS光催化分解硫化氢制氢研究
17.Modeling the Supercritical Adsorption of Hydrogen on A- and X-Type Zeolites with a Lattice Density Function氢气在A和X型沸石上超临界吸附的格子密度函数模型(英文)
18.ADSORPTION PROPERTIES AND SURFACE REACTIONS OF TOLUENE ON VARIED DECATIONATED MORDENITES AT HIGHER TEMPERATURES高温下甲苯在不同去阳离子丝光沸石上的吸附性质和表面反应
相关短句/例句
Pd/HM钯/氢型丝光沸石
1.STUDIES OF PREPARATION AND SURFACE ACIDITY OF Pd/HM CATALYSTS;Pd/HM催化剂的制备及其表面酸性质徐忠民,苏运来,李全芝,胡家芬(复旦大学化学系,上海200433)关键词钯/氢型丝光沸石,酸性质,氨-程序升温脱附,红外-程序升温脱附轻质烷烃的催化异构化是生产高辛烷值汽油的主要加工过程之一。
3)steam dealuminated H-mordenite水汽脱铝氢型丝光沸石
1.5 L autoclave with steam dealuminated H-mordenite(SDHM) as the catalyst instead of the conventional Friedel-Crafts catalysts and resulted in a high selectivity and a high yield of 2,6-DIPN.该文以精萘和丙烯为原料,以水汽脱铝氢型丝光沸石(SDHM)代替传统的傅-克催化剂,在0。
4)Static fractional crystallization稀土改性氢型丝光沸石
5)mordenite['m?:d?nait]丝光沸石
1.Ethene Adsorption on Mordenite and Modified Mordenite;乙烯在丝光沸石和改性丝光沸石孔道内的吸附行为
2.Crystal Transformation among ZSM-5,ZSM-57 and Mordenite;ZSM-5、ZSM-57分子筛和丝光沸石间的转晶规律
3.Research of isobutene oligomerization s catalyst using supporter of mordenite;以丝光沸石为载体的异丁烯齐聚反应催化剂的研究
6)Mordenite zeolite丝光沸石
1.By mixing(NH_4)_6M_(o7)O_(24)·4H_2O with mordenite zeolite and using microwave radiation technique,we have prepared the high dispersion catalyst successfully.将(NH_4)_6M_(o7)O_(24)·4H_2O与丝光沸石混合,用微波加热进行分解-分散制备MoO_3/NaM型催化剂-X射线衍射结果表明,MoO_3组分以非晶相存在于丝光沸石中,丝光沸石的晶体结构基本不受MoO_3分散的影响。
2.Many complicated and different dynamic behaviors are accompanied in the synthetic process of mordenite zeolite.在低硅丝光沸石水热合成制备过程中存在着丰富的水热晶化动力学行为。
3.Mordenite zeolite was used as ion exchanger for the removal of calcium ion in water.采用丝光沸石作为离子交换剂,通过考察交换时间、交换温度、溶液pH值、沸石加入量、沸石粒径等因素对丝光沸石吸附容量的影响,研究了丝光沸石对钙离子的交换吸附能力。
延伸阅读
丝光沸石分子式:Na[A1Si5O12]·3H2OCAS号:性质:又称发光沸石。沸岩矿的主要矿物组分之一。Si/Al值4.17~5。斜方晶系,晶体呈针状、纤维状,集合体为束状和放射状。白、浅黄或玫瑰色。丝绢光泽或玻璃光泽。硬度3~4,密度2.15g/cm3。在其晶体构造中,不仅有四元环、六元环和八元环等,而且还有五元环,且五元环所占的比例很大。五元环是成对地相互并联的,即两个五元环共用两个四面体。成对的五元环又可通过氧桥与另一成对的五元环相联,这时在相联的地方形成了四元环。若进一步的环又相互联接,这样就可围成八元环和十二元环等。十二元环呈椭圆形,其最大及最小直径为0.7nm和0.58nm,平均为0.66nm。实际上丝光沸石的晶体是由很多这样的层重叠在一起,通过适当的方式联结而成的。因此,在丝光沸石的晶体中就形成很多的直筒形的孔隙,其中直径最大的就是由十二元环组成的直筒形孔隙,这就是丝光沸石的主孔道,其截面呈椭圆形,长轴直径为0.695nm,短轴直径为0.581nm,他们好像是一束束管束似的,这与A,X及Y型沸石的笼形孔隙有很大的不同。实际上,直筒形孔隙是有一定程度的扭转的,各层并不是正对着相重叠在一起的,而是相互间有一定的位移。因此,其平均直径可能从0.66nm减到0.4nm。丝光沸石的主孔道之间也有小孔道相互沟通的,但由于这些小孔道孔径(约0.39nm)很小,一般分子不易进去,只能在主孔道出入。丝光沸石的晶体对分子的出入来说,可认为是二度空间,而A型、X型及Y型则为三度空间。丝光沸石由于硅铝比高,五元环多,故耐酸性及热稳定性特别高。常温下不溶于酸。常见于中酸性火山岩的裂隙和气孔中,常与斜发沸石共生。广泛用于化工、环保、农业、轻工、石油、建筑等部门。
