硅含量对氯甲烷制取低碳烯烃的SAPO-34分子筛酸性的影响

以三乙胺-四乙基氢氧化铵为复合模板剂,合成了不同硅含量的SAPO-34分子筛,并采用XRD、NH₃-TPD、以及²⁹Si MASNMR等方法对其进行了表征,最后考察了不同硅含量SAPO-34分子筛催化转化氯甲烷制取乙烯、丙烯的反应性能。结果表明:硅铝比在0.10~0.80时,均能合成规整的SAPO-34立方晶粒;硅铝比低于0.05或高于1.00时,易伴随形成片状和无定形晶相。当硅铝比为0.6时,SAPO-34的结晶度最大,微孔比表面积为588m²/g,微孔体积为0.267cm³/g。硅铝比从0.05到0.60逐渐增大时,SAPO-34酸强度和酸数目明显增多,继续增大硅铝比,酸强度增强,弱酸数目减少。在T=425℃、氯甲烷WHSV=2.73h^-1时,对所合成SAPO-34分子筛催化氯甲烷的反应性能进行了评价,随硅铝比增大,SAPO-34的酸性增强,氯甲烷的初始转化率逐渐升高,然而二次反应加剧致使乙烯丙烯选择性略有下降。     

Synthesis, characterization and catalytic performance of metal-incorporated SAPO-34 for chloromethane transformation to light olefins

SAPO-34 and MeAPSO-34s (MeCo, Mn, Fe) molecular sieves have been synthesized and used as catalysts for chloromethane transformation to light olefins. The influences created by metal incorporation are characterized with XRD, XRF, SEM, NMR, TG and H₂-TPR. The synthesized MeAPSO-34s have the same CHA topology structure, while metal incorporation gives rise to the increase of unit cell parameter and crystalline particle size. The coexistence of metal species in the synthesis starting gel has effect on the Si substitution into AlPO framework. Co, Mn or Fe incorporation generates a negligible difference on the chemical shift in ³¹P and ²⁷Al MAS NMR. ²⁹Si MAS NMR study has demonstrated that metal incorporation favors the Si island formation, predicting the stronger acidity. The reducibility of metal species in the synthesized MeAPSO-34s has been investigated by H₂-TPR with the comparison of metal-impregnated SAPO-34. Two weight losses in TG analysis from template decomposition in diluted oxygen suggest different chemical location of template molecules in the molecular sieves. For MeAPSO-34, more template removal occurrence at high temperature range indicates stronger template-framework interaction and stronger acidity than SAPO-34 after calcinations. All the SAPO-34 and MeAPSO-34 molecular sieves are very active and selective catalyst for light olefins production. Metal incorporation improves the catalyst life and favors the ethylene and propylene generation. These catalytic properties enhancements are possibly related to the mechanism of chloromethane conversion with deposited coke species as reaction center.     

硅溶胶粒径大小对SAPO-34合成及甲醇制烯烃催化性能的影响

在合成SAPO-34的过程中加入不同粒径的硅溶胶来考察其对分子筛酸性和甲醇制烯烃（MTO）性能的影响。采用XRD、SEM、FTIR、NH₃-TPD和²⁹Si MAS NMR等表征手段对合成的分子筛进行表征,并通过固定床反应器对制备的SAPO-34分子筛进行MTO催化性能评价。实验结果表明,不同粒径的硅溶胶对合成的分子筛酸性有很大影响,通过NH₃-TPD表征结果可以看出,随着硅溶胶粒径的增大,分子筛的强酸量、弱酸量均降低。由分子筛的NMR表征结果发现,大颗粒硅溶胶合成的SAPO-34分子筛中存在硅岛。从MTO性能评价结果可以发现,适宜的硅溶胶粒径更有利于提高催化剂的双烯选择性和催化寿命。     

Hydroisomerization of Long-Chain Alkane Over Pt/SAPO-11 Catalysts Synthesized from Nonaqueous Media

SAPO-11 molecular sieves were synthesized from nonaqueous media. The effects of Si and Al sources as well as solvents on the catalytic performance of SAPO-11 were investigated by the hydroisomerization reaction of n-dodecane. The samples were characterized by XRD, XRF, N₂-adsorption, SEM, NH₃-TPD, IR-NH₃ and ²⁹Si CP MAS NMR. The SAPO-11 samples synthesized with tetraethoxysilane as the Si source showed higher Si incorporation contents than the SAPO molecular sieves prepared with polymeric Si sources (fumed silica and Si colloidal gel). The reaction results showed that Pt/SAPO-11 catalysts synthesized from ethylene glycol and glycerol media with the monomeric Si and Al sources (tetraethoxysilane, aluminum isopropoxide) exhibited higher catalytic activities than those catalysts with the polymeric Si or Al (pseudo-boehmite) sources, due to the larger external surface area and higher acidity of the former ones. Especially, the catalyst synthesized in an ethylene glycol medium possessed the highest catalytic activity. Over this catalyst, 88% conversion of n-dodecane was achieved at a low temperature of 250 °C.     

Study of Mn incorporation into SAPO framework: Synthesis, characterization and catalysis in chloromethane conversion to light olefins

MnAPSO-34 molecular sieve has been synthesized with triethylamine as the template, characterized with XRD, XRF, ³¹P, ²⁷Al and ²⁹Si NMR and FT-IR techniques and compared with SAPO-34. The template decomposition and removal have been investigated with TG–DTG–DSC coupled with mass spectrometer. Mn incorporation generates a negligible difference on the chemical shift in ³¹P and ²⁷Al MAS NMR, while an effect on the intensity of resonance peaks is revealed. ²⁹Si MAS NMR study has demonstrated that Mn incorporation favors the Si island formation, which may give rise to the stronger acidic sites. The thermal analysis (TG–DSC) on template removal in a diluted oxygen atmosphere, leading to the formation of CO₂, NO and H₂O, showed, besides a low temperature endothermic weight loss due to the desorption of water, two weight losses (200–400 and 400–600 °C) for SAPO-34 and MnAPSO-34, suggesting two different chemical location environments of template molecules in these two molecular sieves. The quantity of template removed at higher temperature range is much higher in MnAPSO-34, indicating stronger template–framework interaction and stronger acidity after calcination. The acid difference caused by Mn incorporation has also been evidenced by ammonia adsorption evaluated by FT-IR. Chloromethane transformation was carried out over MnAPSO-34 and SAPO-34 and the catalytic performance showed that both molecular sieves are very active and selective catalyst for light olefins production. MnAPSO-34 demonstrated higher activity and light olefins selectivity.     

29Si and 27Al MAS-NMR of NaOH-Activated Blast-Furnace Slag

b²⁹Si and ²⁷Al MAS-NMR were performed on NaOH-activated blast-furnace slag to better characterize the amorphous and poorly crystalline phases which occur in this system. The unreacted glass has a mainly dimeric silicate structure represented by a broad ²⁹Si peak (FWHM = 15 ppm) centered at –74.5 ppm [ Q ¹], with aluminum present exclusively in tetrahedral coordination. Upon reaction with 5M NaOH ( w/s = 0.4), three new ²⁹Si peaks with widths of ca. 2 ppm are formed at -78.5 Q ¹, –81.4 [ Q ²(1Al)J, and -84.3 [ Q ²]. Relative peak areas indicate a mostly dimeric silicate structure for the tobermorite-like C─S─H layers, with roughly a third of the bridging sites occupied by aluminum, and less than 10% by silicon. In addition to the tetrahedrally coordinated aluminum substituted in the C─S─H structure, ²⁷Al MAS-NMR reveals the presence of aluminum in octahedral sites, which is attributed to the aluminate phase (C,M)₄AH₁₃. ²⁹Si results indicate rapid initial consumption of the glass, with roughly a third of the glass reacting within the first day and another third consumed over the following 27 days.     

复合模板剂制备片状SAPO-34分子筛及催化MTO反应

采用三乙胺为主模板剂、双端氨基聚乙二醇800为辅助模板剂制备出片状SAPO-34分子筛,使用XRD、SEM、BET及NH₃-TPD对样品进行表征;并考察在甲醇制烯烃反应中的催化性能。结果表明,所合成的片状SAPO-34分子筛具有较大的比表面积(720 m²/g)和适中的酸性。在催化甲醇制烯烃反应中表现出较长的寿命,甲醇转化率达到99%以上,乙烯和丙烯(双烯)选择性达到80%以上。     

复合模板剂诱导合成SAPO-34分子筛及其MTO性能研究

利用传统水热合成方法,分别采用单一模板剂、混合模板剂合成纯相SAPO-34分子筛,采用XRD、BET、SEM、NH3-TPD和FTIR对样品进行表征,考察其在甲醇制烯烃反应中的催化性能。结果表明,混合模板剂诱导合成的SAPO-34分子筛具有较小的颗粒尺寸,较大的比表面积和适宜的酸性,可以在MTO反应中表现出更优的催化性能。结果发现,MORTEAOH混合模板剂合成的SAPO-34分子筛的催化寿命达320 min,双烯选择性超过82%。     

二乙胺导向合成中空纤维负载型SAPO-34分子筛膜

采用价格低廉的二乙胺为模板剂，通过球磨晶种诱导二次生长法制备中空纤维负载型SAPO-34分子筛膜用于CO₂/CH₄气体分离。系统考察了诱导晶种大小、膜合成液中二乙胺含量、铝源含量与晶化时间对膜结构形貌以及分离性能的影响。结果表明：相比于原始晶种，球磨晶种诱导制备SAPO-34分子筛膜层更加致密。随着膜合成液中二乙胺含量增加，膜表面分子筛晶体逐渐由SAPO-11向SAPO-34转变，当二乙胺含量过高时，载体表面未形成SAPO-34膜。当合成液中铝源含量较低时，分子筛膜晶化不够完全，当铝源含量过高时，膜表面晶体粒径逐渐减小甚至难以成核，膜层厚度减薄，不易生成连续的膜层。随着晶化时间的增加，膜层厚度逐渐增加，膜表面趋于致密。当膜合成液摩尔组成为1.0Al₂O₃∶0.9P₂O₅∶0.6SiO₂∶2.0DEA∶100H₂O，晶化时间为36 h时，球磨晶种诱导制得的SAPO-34分子筛膜分离性能最佳，膜的CO₂渗透性为1.11×10^?6 mol·m^?2·s^?1·Pa^?1，CO₂/CH₄分离选择性达80。     

硅源用量对SAPO-18分子筛合成及催化性能的影响

采用水热合成法,以N,N-二异丙基乙胺为模板剂合成SAPO-18分子筛,并用X射线衍射、X射线荧光光谱、扫描电子显微镜、NH3程序升温脱附及N2吸附-脱附等对其结构进行表征,系统研究合成凝胶中硅源用量对SAPO-18分子筛合成及其在甲醇制烯烃反应中催化性能的影响。结果表明,在晶化温度453 K、晶化时间96 h和合成凝胶中0.3≤n(Si O2)∶n(Al2O3)≤1.2条件下,能合成出纯相的SAPO-18分子筛,其中,当n(Si O2)∶n(Al2O3)=0.6,在反应时间135 min时,合成的SAPO-18分子筛具有较高的双烯选择性(乙烯+丙烯)。合成凝胶中硅源的用量对SAPO-18分子筛酸性有显著影响,适当增加分子筛中强酸比有助于提高乙烯和丙烯选择性,但缩短催化剂寿命。     

Si MAS-NMR Study of Hydrated Cement Paste and Mortar Made with and without Silica Fume

This paper presents ²⁹Si MAS-NMR measurements that trace the hydration process in both cement paste and mortar specimens made from ordinary portland cement, Type I, when the cement content is replaced by 0, 10, 15, and 20 wt% of silica fume. The specimens were moist-cured for 3, 7, 14, 28, 90, and 180 days at a laboratory temperature of 21°C (69.8°F). Compressive strength for all tested specimens was also determined. The results show that the degree of hydration (Q¹+ Q²)/(Q°+ Q¹+ Q²) increased with increasing content of silica fume, especially at the early ages of 3 to 28 days. In the same manner, compressive strength results were markedly increased up to 14 days and were lowered at later ages, compared to the control mix (0 wt% silica fume).     

Reactivity of titanosilicates-supported catalysts for the selective catalytic reduction of NO with NH3

The zeolites with MEL structure were synthesized via the hydrothermal method and the zeolites-supported catalysts, such as Cu²⁺, Ga³⁺, Co³⁺, Ce²⁺ and VO²⁺/zeolites, were prepared by the incipient wetness impregnation. The structures of the synthesized zeolites were characterized by techniques of XRD, FT-IR, SIMS, ²⁹Si and ²⁷Al MAS NMR. The selective catalytic reduction (SCR) of NO by ammonia was carried out with a glass reactor under a downstream flow. The synthesized TS-2 showed no significant DeNO_x activity, instead of catalyzing the ammonia oxidation at a high temperature. Furthermore, the catalytic activity of TS2 zeolite can be effectively modified and tuned up through incorporating second metal ion such as Fe³⁺, Co³⁺, and Al³⁺ into the framework (i.e., [Fe,Ti]Z11, [Co,Ti]Z11, and [Al,Ti]Z11). Among the synthesized bimetallosilicates, the [Fe,Ti]Z11 zeolite is the most active catalyst for the SCR DeNO_x with ammonia; the NO conversion and the N₂ yield reach around 80%. In addition, impregnating the metal ions on TS2 or bimetallosilicates is also a very effective way to improve the SCR DeNO_x activity. Ga³⁺/[Fe40,Ti40]Z11 and Co³⁺/[Fe40,Ti40]Z11 are the most active catalysts and show a potential for the practical applications.     

Influence of the SiO2/Al2O3 ratio on the synthesis and physicochemical characteristics of levyne-type zeolite

Levyne-type zeolites were synthesized from gels of initial compositions 4.5Na₂O-6MeQI-xAl₂O₃ 30SiO₂-500H₂O, with MeQ = methylquinuclidinium and 0.6 ≤ x ≥ 3 at 150 ≤ t ≥ 190 °C. The ²⁹Si NMR spectra show the presence of two crystallographically different sites in the structure. The ²⁷Al NMR spectra also suggest the presence of two different tetrahedral Al atoms incorporated in the structure. A rather high amount of defect groups SiOM and Si(OM)₂ with M = MeQ, Na and/or H are present in the precursor samples. The Si(OM)₂ groups are eliminated during calcination, and a certain amount of SiOM still persists after calcination. The combined ¹³C NMR and thermal analysis data allowed one to interpret the nature of the two different types of MeQ⁺ ions occluded in the levyne channels.     

Hydrothermal synthesis, structural, and spectroscopic studies of vanadium substituted ETS-4

Titano-vanadium silicate with the structure of ETS-4 has been hydrothermally synthesized to produce V-ETS-4. Direct comparison between ETS-4 and V-ETS-4 showed successful isomorphous substitution of titanium by vanadium. The existence of vanadium is confirmed by energy dispersive X-ray spectrometry (EDS). ⁵¹V and ²⁹Si magic-angle spinning nuclear magnetic resonance (MAS NMR) spectroscopy revealed that the vanadium is present as V⁴⁺ and prefers the octahedral site in the ETS-4 structure. Diffuse reflectance ultraviolet–visible (DR UV–Vis) and Raman spectroscopy analyses showed the existence of five- and six-coordinated V⁴⁺, which partly substitute TiO₅ square-pyramids and interrupts the chains of TiO₆ octahedra in the ETS-4 structure. This isomorphous substitution also impacts the thermal stability of V-ETS-4 and it was observed by differential scanning calorimetry (DSC).     

Synthesis, characterization and catalytic properties of a LEV type silicoaluminophosphate molecular sieve, SAPO-35 from aqueous media using aluminium isopropoxide and hexamethyleneimine template

A small-pore silicoaluminophosphate molecular sieve, SAPO-35 was synthesized using hexamethyleneimine template and aluminium isopropoxide as aluminium source in aqueous media is reported for the first time. Pure, highly crystalline samples were obtained in short period (96 h). The samples crystallize at narrow silicon content (0.3 M SiO₂). Fourier transform Infrared spectroscopic studies reveal the presence of three different silanol groups. A comparison with multinuclear solid-state Magic angle spinning nuclear magnetic resonance spectroscopic studies with FT-IR studies shows that these groups are located at Double six member ring, near to D6R and near to single six member ring. Other characterizations and methanol to olefin reaction studies shows that the molecular sieves synthesized by aqueous and non-aqueous media are having comparable properties. It reveals a possible application of this catalyst for industrial process.     

Effects of the SAPO-11 synthetic process on dehydration of ethanol to ethylene

The effects of the synthetic condition of SAPO-11 molecular sieves on ethanol dehydration to ethylene were studied. Product-compositions, ethanol conversion, and selectivity to ethylene of synthesized and commercial SAPO-11 molecular sieves were compared. Results are as follows: the optimal synthetic conditions for SAPO-11 molecular sieves are adding pseudoboehmite before orthophoshporic, using di-n- propylamine as the template, having a mass fraction of 40% colloidal silica as the silica source and the starting gel obtained, and running at 200°C for 48 h. From the patterns of NH₃-TPD, the amount of acid synthesized by SAPO-11 molecular sieves is less than that by commercial SAPO-11 molecular sieves, and has a stronger weak acid. Also, ethanol conversion and selectivity to ethylene reached 99% at 280°C on synthesized SAPO-11, lower by 20°C compared to commercial SAPO-11. For two SAPO-11 molecular sieves, the by-products in the gas phase are mainly ethane, propane, propene, isobutane, n-butane, propadiene, butylene and some higher hydrocarbons. The by-products in the liquid phase are ethyl ether and acetaldehyde.     

Extended X-ray Absorption Fine Structure Investigation of Calcium Silicate Hydrates

²⁹Si MAS-NMR, and Ca-EXAFS experiments have been conducted on calcium silicate hydrates (C-S-Hs) with structure derived from wollastonite. Crystalline compounds (wollastonite, xonotlite, hillebrandite, foshagite, 1.1 nm and 1.4 nm tobermorites, and jennite) and C-S-H were synthesized and characterized. ²⁹Si NMR provides information on silicate chains and EXAFS on calcium environment. The refined EXAFS values are in agreement with XRD data, except for tobermorite. The calcium order in C-S-H (C/S molar ratio from 0.7 to 1.4) is similar to that of tobermorite but different from that of jennite. Structural models of C-S-H are discussed.     

Synthesis and Characterization of β'-SiAlON Ceramics from Organosilicon Polymers

A polycarbosilane has been modified with aluminum alkoxide to obtain a new preceramic compound. The pyrolysis in NH₃ flow of this polyaluminocarbosilane leads to the formation of an amorphous Si-Al-O-N phase. The nitridation process has been followed by IR and ²⁹Si MAS-NMR spectroscopies. A fine-grained β-SiAION ceramic is obtained by firing the amorphous phase at 1500°C. The crystallization process has been studied by XRD, ²⁹Si MAS-NMR, and TEM techniques.     

29Si and 31P MAS-NMR Spectra of Li2S-SiS2-Li3PO4 Rapidly Quenched Glasses

²⁹Si and ³¹P MAS-NMR spectra were measured for the Li₂S-SiS₂-Li₃PO₄ glasses. ²⁹Si MAS-NMR spectra revealed that a large number of silicon atoms in the glasses were coordinated with both sulfur and oxygen atoms. ³¹P MAS-NMR spectra showed that some phosphorus atoms were also coordinated with both sulfur and oxygen atoms. Such structural units resulted in the improvement of the conductivity and the glass stability against crystallization by the doping of Li₃PO₄ to the Li₂S-SiS₂ glasses.     

Naturally occurring 1.4 nm tobermorite and synthetic jennite: Characterization by Al and Si MASNMR spectroscopy and cation exchange properties

A naturally occurring 1.4 nm tobermorite and a synthetic jennite were characterized by ²⁷Al and ²⁹Si magic angle spinning nuclear magnetic resonance (MASNMR) spectroscopy and their cation exchange properties were measured. ²⁷Al MASNMR spectroscopy revealed that both the 1.4 nm tobermorite and synthetic jennite contained trace quantities of Al in tetrahedral coordination. The 1.4 nm tobermorite also contained octahedrally coordinated Al probably due to the presence of an aluminum compound as a trace impurity. The ²⁹Si MASNMR spectrum of 1.4 nm tobermorite exhibited a strong resonance at −85.2 ppm and a small shoulder at −80 ppm which are attributed to chain middle groups (Q²) and end groups (disilicates) respectively. ²⁹Si MASNMR spectroscopy of the synthetic jennite showed a strong resonance at −85.7 ppm and a moderately strong resonance at −81.4 ppm which correspond to single chains and end groups respectively. Jennite showed a considerably larger quantity of end groups than the 1.4 nm tobermorite. The unsubstituted 1.4 nm tobermorite and synthetic jennite exhibited only small cation exchange capacities.