Selective synthesis of 2,6-triad dimethylnaphthalene isomers by disproportionation of 2-methylnaphthalene over mesoporous MCM-41

2,6-Dimethylnaphthalene (2,6-DMN) is one of the crucial intermediates for the synthesis of polybutylenenaphthalate and polyethylene naphthalate (PEN). The complex synthesis procedure and the high cost of 2,6-DMN production significantly reduce the commercialisation of PEN even though PEN demonstrates superior properties compared with polyethylene terephthalate. 2,6-DMN can be produced by methylation of 2-methylnaphthalene (2-MN) and/or naphthalene, disproportionation of 2-MN, and/or isomerisation of dimethylnaphthalenes (DMNs). In this study, synthesis of 2,6-triad DMN isomers consisting of 2,6-DMN, 1,6-DMN, and 1,5-DMN have been investigated with the disproportionation of 2-MN over unmodified and Zr-modified mesoporous MCM-41 zeolite catalysts. In contrast to other DMN isomers, both 1,5-DMN and 1,6-DMN can be effectively isomerised to be profitable 2,6-DMN. The disproportionation of 2-MN experiments were carried out in a catalytic fixed-bed reactor in the presence of 1 g of catalyst at a temperature range of 350–500 °C and weight hourly space velocity between 1 to 3 h^?1. The results demonstrated that mesoporous MCM-41 zeolite catalyst has a selective pore shape for 2,6-triad DMN isomers, which may allow a decrease in the production cost of 2,6-DMN. Additionally, 2,6-DMN was successfully synthesised by the disproportionation of 2-MN over MCM-41 zeolite catalyst. Furthermore, both the conversion of 2-MN and the selectivity of 2,6-DMN were considerably enhanced by the Zr impregnation on MCM-41.     

Selective Synthesis of 2,6-Dimethylnaphthalene by Transalkylation in the Presence of Acid Ionic Liquids[Cnmim]Cl-AlCl3

A highly selective synthesis of 2,6-dimethylnaphthanlene(2,6-DMN) by transalkylation between 2-methylnaphthanlene(2-MN) and 1,2,4,5-tetramethylbenzene(TeMB) was performed with 1-alkyl-3-methylimidazo- lium aluminum chloride([Cnmim]Cl-AlCl3) ionic liquids(ILs) as catalysts. The influences of the alkyl group as the organic cation, the acidic strength of [C4mim]Cl-AlCl3 ILs as well as the reaction conditions on the catalytic performance were investigated. [C4mim]Cl-AlCl3 ILs[x(AlCl3)=71%] exhibited high activity and selectivity toward 2,6-DMN. The selectivity to 2,6-DMN and the 2,6-DMN/2,7-DMN ratio reached up to 68.2% and 3.7:1, respectively. The UV-Vis spectrum of TeMB treated by different ILs shows that the protonated degree of TeMB dependeds on the acidity strength of ILs, which has a significant impact on the reaction results. The high protonated degree of TeMB is advantageous to enhancing the conversion of transalkylation and the large stereo-hindrance effect of TeMB is favorable to improving the selecivity to 2,6-DMN.     

Cu改性SAPO-11分子筛催化萘和甲醇甲基化反应的研究

分别采用水热合成法和浸渍法对SAPO-11分子筛进行Cu改性.通过X射线衍射(XRD)、扫描电镜(SEM)、NH_3-程序升温脱附(NH_3-TPD)、H_2-程序升温还原(H_2-TPR)、~(29)Si固体核磁共振(~(29)SiMAS NMR)以及N_2吸附-脱附(N_2adsorption-desorption)等表征手段对改性前后SAPO-11分子筛的结构、酸性进行表征,并研究了改性后分子筛催化合成2,6-二甲基萘反应性能的影响规律.结果表明,经水热合成法进行Cu改性的SAPO-11分子筛结晶度升高,酸中心数量增加,比表面积和孔体积上升,从而使萘的转化率、2,6-二甲基萘的选择性、2,6-二甲基萘与2,7-二甲基萘的比值及2,6-二甲基萘的收率提高.     

水蒸气处理改性的SAPO-11分子筛催化合成2,6-二甲基萘的研究

采用水蒸气对SAPO-11分子筛进行改性.通过XRD、SEM、NH3-TPD以及N2吸脱附等表征手段对改性前后SAPO-11分子筛的结构、酸性进行表征,并研究了改性后分子筛催化合成2,6-二甲基萘反应性能的影响规律.结果表明,水蒸气处理使SAPO-11分子筛发生骨架脱铝,酸中心数量减少,比表面积和孔体积有所下降,从而使2,6-二甲基萘的选择性、2,6-二甲基萘与2,7-二甲基萘的比值及催化稳定性提高.     

Isomerization of dimethylnaphthalenes over zeolites

A dimethylnaphthalene (DMN) isomer mixture from a reforming unit was reacted at 350°C and atmospheric pressure over H-mordenites (Si/Al ranging from 5 to 100), a partially decationated NaY (Si/Al=2.4) and a slightly dealuminated HY (Si/Al=5), with the aim of increasing the 2,6- and 2,7-DMN content by isomerization. The best results were obtained on H-mordenite with Si/Al=10, where shape selective effects made possible to double the amount of the valuable isomers while limiting to a negligible extent the side reactions of disproportionation and dealkylation.     

Correlation of diffusion coefficients for naphthalene and dimethylnaphthalene isomers in supercritical carbon dioxide

An equation proposed by Darken, including the thermodynamic factor and tracer diffusion coefficients of solvent and solute, was adopted to correlate the diffusion coefficients for naphthalene and dimethylnaphthalene (DMN) isomers in supercritical carbon dioxide and the correlated results were compared with the experimental data. IML equation of state with mixing rules and combining rules containing two adjustable interaction parameters were used for calculation of the thermodynamic factor. By using the interaction parameters adjusted to the solubility data, the concentration dependence of diffusion coefficients and their anomaly near the critical point of carbon dioxide can be quantitatively represented. In order to improve the reliability of experimental results, some re-measured diffusion coefficient data for naphthalene, 2,6- and 2,7-DMN at 308.2 K, and new data for naphthalene at 318.2 K and for 2,3-DMN at 308.2 K are presented.     

Performance of HZSM-5 as Catalyst for Alkylation of Methyl naphthalene with Methanol in Supercritical Phase

The alkylation of methylnaphthalene（MN） with methanol in the presence of HZSM-5 is a promising route for producing 2,6-dimetylnaphthalene（2,6-DMN） with a high selectivity. However, the conversion of MN is very low and the catalyst will be deactivated rapidly with increasing time on stream. In this study, the effects of the reaction pressure on the reactivity, selectivity and life of the catalyst of alkylation of MN over HZSM-5 modified by BaO were investigated. It was observed that with the enhancement of pressure, the conversion of MN increased, but the selectivity of 2,6-DMN kept unchanged, which was about 40% -42%. When the alkylation was carried out under a supercritical condition, the conversion of MN was 3-6 times higher and the life of catalyst was 25-30 times longer than those at an ambient pressure. The thermogravimetric analyses of the deactivated catalysts at different reaction pressures indicate that the amount of coke deposited on the catalysts was about 10% to 12 %, and the coke-burning reactions mainly took place in a temperature range from 720 to 860 K, and the apparent activation energies of the coke-burning catalysts at 0. 1 MPa（ 10 h） and 7. 6 MPa（ 108 h） were, respectively, 65.90 and 84. 72 kJ/mol. It is concluded from tile results that the supercritical condition is advantageous to enhancing the conversion of alkylation and extraction in situ, and to transporting those high molecular-weight poly-aromatic compounds so as to extend the catalyst life successively.     

Properties and Characterization of Modified HZSM—5 Zeolites

Physicochemical and catalytic properties of phosphorus and boron modified HZSM-5 zeolites treated with 100% steam at 673K were investigated.The acidity and distribution of acidic sites were studied by infrared spectroscopy using pyridine as probe molecule and temperature programmed desortion (TPD) of ammonia.The structure of the samples was characterized by XRD,and the textural properties of the catalysts were determined by nitrogen isothermal adsorption-desorption measurements and scanning electron microscopy(SEM).The XRD results show that the modified samples have no novel crystalline phase,indicating a high dispersion of phosphorus and boron species.After treatment,the microporous volume and surface area of the samples markedly decrease,implying the bolockage of the channel.The nitrogen adsorption-desorption measurements suggest that the isothermal type of all samples is a combination of isothermal type Ⅰ and Ⅳ，and all hysteresis loops resemble the H4-type in the IUPAC classification.The total acidity of the modified samples,determined by pyrldine adsorption IR and TPD of ammonia,decreases in contrast to that of the parent HZSM-5.The conversion of n-heptane over P and B steammodified HZSM-5 is higher than that of P and B-modified HZSM-5 zeolites but lower than that of the parent HZSM-5.     

Mo/HZSM-5丙烷芳构化催化性能及其吸附量热的研究

采用等量浸渍法制得一系列不同担载量的Ｍｏ／ＨＺＳＭ－５催化剂,运用ＸＲＤ和ＦＴＩＲ方法考察了Ｍｏ物种在催化剂表面的分散状态,首次采用微分吸一热技术对Ｍｏ／ＨｚＳＭ－５催化剂的表面酸性进行表征。同时研究了催化剂对丙烷芳构化的反应活性。结果表明：对于担载Ｍｏ的ＨＺＳＭ－５分子筛催化剂,Ｍｏ物种在ＨＺＳＭ－５分子筛表面上顺序为ＨＺＳＭ－５〉１％Ｍｏ／ＨＺＳＭ－５〉２％Ｍｏ／ＨＺＳＭ－５分子筛本身表面的酸     

Study on the adsorption of 1,5-, 1,6- and 2,6-dimethylnaphthalene on a series of alkaline and alkaline earth ion-exchanged faujasite zeolites

Adsorption of the equilibrium mixture of 1,5-, 1,6- and 2,6-dimethylnaphthalene (DMN) was investigated on a series of alkaline and alkaline earth ion-exchanged faujasite zeolites using pulse test and breakthrough techniques. It was found that the adsorption of the DMNs would proceed through a complex mechanism governing by at least molecular diffusion, acid-base interaction, preferential interaction with cation and molecular displacement. All ion-exchanged faujasite zeolites only provided rejective systems for 2,6-DMN and some of them were potential adsorbents for the 2,6-DMN purification.     

甲醇催化转化制丙烯中HZSM-5分子筛的尺寸效应

甲醇催化制丙烯(MTP)是一个具有重要工业应用的研究课题, 目前普遍采用的催化剂是HZSM-5 分子筛. 通过调节分子筛合成原料的配比、晶化温度和晶化时间等参数, 对所制备的不同晶粒尺寸的HZSM-5 分子筛, 综合利用X射线衍射(XRD)、扫描电镜(SEM)、N₂吸附和氨气程序升温脱附(NH₃-TPD)等手段表征了其晶格结构、表观形貌、孔结构以及酸性质. 利用固定床反应装置对HZSM-5 分子筛甲醇催化制丙烯的活性和稳定性进行了评价, 并采用热重(TG)分析技术对催化剂的积炭性能进行了考察. 实验结果表明, HZSM-5 分子筛粒度的减小可以增加分子筛比表面积、孔体积, 同时有更多开放的孔口及短的孔道长度, 有利于反应物分子的吸附和传质,并降低了产物分子在孔道中的扩散距离及发生二次反应的几率, 提高了催化剂的抗积炭能力和容炭能力以及稳定性; 而且所合成的小尺寸分子筛单位质量的总酸量及强酸量均有不同程度的下降, 有利于提高目标产物丙烯的选择性.     

晶粒大小对ZSM-5分子筛甲醇制低碳烯烃催化性能的影响

对三种HZSM-5分子筛进行Ca改性,获得两组酸性接近的催化剂,考察了晶粒大小对甲醇制低碳烯烃(MTO)反应的影响。通过进一步与Na改性的比较,探讨了Ca在催化反应中的作用。采用扫描电镜(SEM)测定晶粒大小及形貌,氨气程序升温脱附(NH3-TPD)及吡啶红外吸附(Py-IR)表征催化剂的酸性。MTO催化性能测定结果表明,HZSM-5的低碳烯烃选择性较低且下降较快,催化活性降低也快;Ca改性降低酸性,提高了低碳烯烃选择性和催化稳定性;晶粒大小主要影响催化稳定性,小晶粒分子筛催化剂稳定性更好。高Ca含量改性效果更好;钠改性也提高了低碳烯烃选择性,但其稳定性较差。对于HZSM-5和Ca/HZSM-5,小晶粒的催化剂具有较好的催化稳定性。提出Ca参与了催化反应,MTO是一个酸碱协同作用的催化过程。     

阳离子改性HZSM-5沸石上低碳醇转化为芳烃

低碳醇等含氧化合物能在HZSM-5上选择转化为汽油和芳烃.HZSM-5用某些阳离子改性可提高甲醇和乙醇的芳构化活性.本文研究了阳离子改生HZSM-5沸石的酸性质变化与低碳醇芳构化反应性能之间的关系. 1.催化剂制备:将直接法ZSM-5原粉制成氢型(HZ),SiO_2/Al_2O_3为37.再用离子交换法进行改性,制得Cu,Zn,Cd,Mn和Ga改性沸石,代号和金属含量(％)分     

Dual-Bed Catalytic System for Direct Conversion of Methane to Liquid Hydrocarbons

A dual-bed catalytic system is proposed for the direct conversion of methane to liquid hydrocarbons. In this system, methane is converted in the first stage to oxidative coupling of methane (OCM) products by selective catalytic oxidation with oxygen over La-supported MgO catalyst. The second bed, comprising of the HZSM-5 zeolite catalyst, is used for the oligomerization of OCM light hydrocarbon products to liquid hydrocarbons. The effects of temperature (650-800℃), methane to oxygen ratio (4 10), and SiO2/Al2O3 ratio of the HZSM-5 zeolite catalyst on the process are studied. At higher reaction temperatures, there is considerable dealumination of HZSM-5, and thus its catalytic performance is reduced. The acidity of HZSM-5 in the second bed is responsible for the oligomerization reaction that leads to the formation of liquid hydrocarbons. The activities of the oligomerization sites were unequivocally affected by the SiO2/Al2O3 ratio. The relation between the acidity and the activity of HZSM-5 is studied by means of TPD-NH:j techniques. The rise in oxygen concentration is not beneficial for the C5 selectivity, where the combustion reaction of intermediate hydrocarbon products that leads to the formation of carbon oxide (CO CO2) products is more dominant than the oligomerization reaction. The dual-bed catalytie system is highly potential for directly converting methane to liquid fuels.     

水蒸气处理对HZSM-5分子筛催化剂的酸性及孔结构的影响

通过XRD，NH3-TPD，IR，比表面与孔结构测定等方法，研究了HZSM-5分子筛（硅铝比为38）在不同温度下进行水热处理时的酸性与孔结构。结果表明，随着水热处理温度的提高，HZSM-5分子筛的结晶度稍有增大；酸性明显减弱，弱酸位增多，强酸位相对减少；IR谱图上有一定的蓝移；比表面与微孔体积减小，介孔体积增大。     

氟硅酸铵改性的HZSM-5催化剂的表征及其碳四烯烃裂解催化性能

 采用X射线衍射、扫描电镜、 N2低温吸附、核磁共振、氨程序升温脱附和吡啶吸附红外光谱等表征手段考察了氟硅酸铵改性对成型后的HZSM-5分子筛催化剂物化性能的影响,并在连续固定床反应器中考察了改性前后催化剂在碳四烯烃裂解制丙烯反应中的催化性能. 结果表明,氟硅酸铵改性不但不会破坏HZSM-5分子筛的骨架结构,而且能起到疏通催化剂孔道的作用,使催化剂平均孔径增大. 改性后催化剂的L酸酸强度降低,而B酸酸强度有所提高. 碳四烯烃裂解反应结果表明,氟硅酸铵改性可使催化剂的催化性能得到改善,其活性稳定性,水热稳定性及丙烯收率都得到了一定程度的提高.     

NiO或NiSO4改性的纳米HZSM-5催化剂的加氢脱硫活性

研究了纳米HZSM-5及其用不同镍化合物改性的催化剂的脱硫活性. 结果表明,对全馏分催化裂化汽油脱硫, NiSO4改性比NiO改性的催化剂有更好的脱硫活性稳定性. 通过催化剂吸附吡啶前后的傅里叶变换红外光谱、氨程序升温脱附和微分热重分析等表征结果发现, NiSO4中的SO2-4与催化剂中的Al2O3之间存在着较强的相互作用;这种相互作用可以产生类似于超强酸的酸性质,大大提高了催化剂路易斯酸中心的数量和强度,从而提高了催化剂催化脱硫活性的稳定性.     

EFFECT OF SULFURIZATION ON THE PIIYSICAL ANDCATALYTIC PROPERTIES OF HZSM-5 ZEOLITES

IntroductionZSM-5zeoliteshavebeenwidelyemployedinthefieldofhydrocarbonconversion.UtiliZationofMo-containingandKorBamodifiedZSM-5zeolitestOactivatemethaneandtOpreparelightolefinsfromparaffinshavebeenreportedinourpreviouspapersll'2].However,littleattentionh…     

化学液相沉积法改性HY沸石及其对萘与叔丁醇择形烷基化反应的催化性能

采用化学液相沉积法,经异丁基三乙氧基硅烷修饰并用高温水蒸气处理得到了改性HY沸石.采用X射线衍射、低温N2吸附和脉冲式质量分析技术研究了改性样品骨架结构、比表面积、孔结构参数和吸附性质的变化,并考察了HY沸石及其改性后样品对萘与叔丁醇烷基化制备2,6-二叔丁基萘(2,6-DTBN)反应的催化性能.结果表明,改性后HY沸石的骨架结构基本不变,但比表面积增大,平均孔径缩小,孔口尺寸得到了一定调变.在改性后HY沸石催化剂上萘与叔丁醇烷基化反应活性下降,但催化剂择形性能明显提高,其2,6-DTBN/2,7-DTBN比可以达到6.62。