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.     

Conversion of light paraffins for preparing small olefins over ZSM-5 zeolites

The conversion of C₃-C₉ paraffins to small olefins over ZSM-5 zeolite is investigated. The small olefins are primary products and are usually converted into other more stable secondary products such as aromatics on the ZSM-5 zeolites. Thermally treated HZSM-5, K/HZSM-5 and Ba/HZSM-5 catalysts were developed and favourable oxidative conditions were introduced for the conversion process to maximize selective conversion of light paraffins to small olefins at the relatively low temperature of 873 K. The role of K and Ba is to minimize bimolecular hydrogen transfer reactions and enhance the dehydrogenation activity of the catalysts. Meanwhile, the oxygen in the gas phase is effective to improve the olefin selectivity and yield. C₂-C₄ olefin selectivities of 70.4 and 66.8% have been obtained for propane andn-hexane feed-stocks, respectively, at a temperature of 873 K.     

甲醇制烯烃典型技术最新研究进展(Ⅰ)——催化剂开发进展

对国内外甲醇制烯烃催化剂的开发历程及进展进行了综述。开发无毒模板剂或价格低廉的无机模板剂、降低水用量、有效控制分子筛纯度、提高收率、母液的循环利用,是今后甲醇制烯烃工艺催化剂活性组分制备的发展方向。提高流化床甲醇制烯烃工艺中SAPO-34成型催化剂的催化性能、水热稳定性和耐磨强度、控制粒径分布和球形度,改进固定床甲醇制丙烯工艺中ZSM-5分子筛成型催化剂的催化性能、抗结焦性和水热稳定性、提高压碎强度是甲醇制烯烃工业化催化剂的开发方向。     

甲醇制烯烃催化机理的研究进展

综述了甲醇制烯烃催化剂的主要类型,以及目前催化剂机理研究的主要分析方法,重点总结了甲醇制烯烃反应中碳碳键形成的机理,主要包括直接反应机理和烃池机理.通过分析催化剂反应机理的研究动向及可能存在的问题,为甲醇制烯烃工艺的开发及改进提供借鉴.     

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 of dimethyl carbonate by transesterification with various MgO–CeO2 mixed oxide catalysts

Abstact SAPO-34s with low and high Si content were synthesized and characterized by XRD, XRF, NMR, FTIR and TG-DSC. Different Si content generated no apparent difference in XRD patterns and ³¹P and ²⁷Al MAS NMR spectra. The Si coordination states studied by ²⁹Si MAS NMR predicted the acidity difference caused by Si incorporation. The absorbance of bridge hydroxyls in FTIR spectra also showed the amount of active sites differed with Si content. Both of the two samples were employed as catalysts in the transformation of chloromethane to light olefins and proved to be very selective catalysts for light olefins production. The influences of Si content on chloromethane conversion and product selectivity were investigated in details. Coke amount and coke species were determined by TG-DSC and FTIR. Coke formation was related to the Si content of SAPO-34 and corresponded to the catalytic performance.     

Kinetic modeling of methanol to olefins process over SAPO-34 catalyst based on the dual-cycle reaction mechanism

A kinetic model for methanol to olefins (MTO) process over SAPO-34 catalyst was established based on the dual-cycle reaction mechanism. Simplifications were made by assuming olefins-based cycle as virtual species S, and aromatics-based cycle as R, where the former mainly accounts for the production of higher olefins, while the latter for lower olefins. Transformation of S to R was considered with the participation of methanol and olefins. Meanwhile, a phenomenological deactivation model was developed to account for the deactivation process. With the proposed model, the evolution of methanol conversion and product selectivity with time on stream could be predicted, and key reaction characteristics, such as the autocatalytic nature of the reaction, could also be captured due to its mechanism-based nature. Further simulations of MTO reactors at different scales validated the robustness and applicability of the current model in MTO process development and optimization. © 2018 American Institute of Chemical Engineers AIChE J, 65: 662–674, 2019     

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.     

CuO-ZnO/(SAPO-34)-高岭土催化CO2加氢合成低碳烯烃

以廉价的高岭土为原料,三乙胺为模板剂,采用水热法制备了负载型催化剂(SAPO-34)-高岭土。通过将CuO-ZnO负载于(SAPO-34)-高岭土表面制备了双功能催化剂CuO-ZnO/(SAPO-34)-高岭土,用XRD、SEM、EDS、BET、H_2-TPR及NH_3-TPD对合成的催化剂进行了表征,将其用于催化CO_2加氢制备低碳烯烃,在反应温度为673 K、反应压力为3 MPa、空速为1 800 m L/(g_(cat)·h)、V(CO_2)∶V(H_2)=1∶3的条件下,CO_2单程转化率为43.5%,低碳烯烃的选择性和产率分别为63.8%和27.8%。在连续8 h的催化性能测试中,低碳烯烃的产率最低为18.7%。     

高岭土微球原位合成SAPO-34分子筛及其在流化床甲醇/二甲醚制烯烃过程中的应用(英文)

SAPO-34 zeolite is considered to be an effective catalyst for methanol or dimethyl ether conversion to olefins. In this study, we developed the in situ synthesis technology to prepare SAPO-34 zeolite in kaolin microspheres as a catalyst for fluidized methanol or dimethyl ether to olefins process. The silicoaluminophosphate zeolite was first time reported to be synthesized in kaolin microspheres. The SAPO-34 content of synthesized catalyst was about 22% as measured by three different quantitative methods (micropore area, X-ray fluorescence and energy dispersive spectroscopy element analysis). Most of the SAPO-34 zeolites were in nanoscale size and distributed uniformly inside the spheres. The catalytic performance was evaluated in fixed bed and fluidized bed reactors. Compared with the conventional spray-dry catalyst, SAPO/kaolin catalyst showed superior catalytic activities, better olefin selectivities (up to 94%, exclusive coke), and very good hydrothermal stability. The in situ synthesis of SAPO-34 in kaolin microspheres is a facile and economically feasible way to prepare more effective catalyst for fluidized MTO/DTO (methanol to olefins/dimethyl ether to olefins) process.     

Co-reaction of Ethene and Methylation Agents over SAPO-34 and ZSM-22

Co-reaction of ethene and different methylation agents (i.e. methanol and chloromethane) was carried out over SAPO-34 and ZSM-22 and the results are compared. It was found that the enhancement of ethene conversion was achieved by co-feeding it with methylation agents. In the ethene–chloromethane system, the methylation of ethene by chloromethane was more prominent compared with that of the co-reaction of ethene and methanol. The reasons for the differences between ethene–methanol and ethene–chloromethane co-reaction system are discussed. Complete suppress of direct conversion of methanol or ethene could be achieved over ZSM-22 by pre-coking, and propene selectivity higher than 80% was obtained at lower conversions.     

甲醇制烯烃用ZSM-5分子筛的研究进展

综述了甲醇制烯烃用ZSM-5分子筛催化剂的研究进展,包括甲醇制低碳烯烃的合成机理、ZSM-5分子筛的结构与酸性对合成低碳烯烃性能的影响以及分子筛的改性。重点探讨了ZSM-5分子筛的改性（如水热处理改性、磷改性、氟改性、硼改性、金属离子改性及其他化学改性）对催化剂表面酸性和孔径、低碳烯烃选择性和催化剂稳定性的影响,指出分子筛孔径/表面酸性的调控和MTO/MTP反应机理的研究是甲醇制低碳烯烃催化剂研究的发展方向。     

多级孔ZSM-5/SAPO-34复合分子筛制备及催化MTO性能研究

为制备性能更加优异的甲醇制烯烃（MTO）催化剂及进一步探究多级孔道对MTO催化反应的影响,采用柠檬酸溶液（CA）运用后处理方法对复合分子筛进行刻蚀,成功制备了具有多级孔道结构的ZSM-5/SAPO-34复合分子筛（CA-Z-S）。对复合分子筛的晶相、骨架、孔结构等理化性质进行了表征;将复合分子筛用于催化MTO反应,考察了复合分子筛的催化性能。表征结果表明,使用CA处理对ZSM-5/SAPO-34复合分子筛的形貌、结构会产生影响,使CA-Z-S具有更紧密的复合结构、适量的弱酸中心和多级孔道复合结构。催化测试结果表明,甲醇转化率达到100%时,CA-Z-S的寿命为1 200 min,较SAPO-34提高79%,较ZSM-5/SAPO-34提高30%;CA-Z-S对轻烯烃的选择性达到90.5%,较SAPO-34提高约3.7%。研究结果表明,利用CA对复合分子筛进行后处理,有利于复合分子筛催化MTO反应性能的提升。     

铑催化高碳烯烃氢甲酰化合成高碳醇进展

介绍了近年来铑／膦催化高碳烯烃氢甲酰化的研究和开发进展。特别是以ＴＰＰＯ／Ｒｈ为催化剂的Ｍｉｔｓｕｂｉｓｈｉ Ｋａｓｅｉ工艺和水／有机两相为主的各种两相催化技术。近年的进展表明,通过创新膦配体以及采用两相催化体系,有望使更有效,更经济的铑催化工艺在高碳烯烃氢甲酰化的应用中取得突破。     

CrHZSM-5 Zeolites – Highly Efficient Catalysts for Catalytic Cracking of Isobutane to Produce Light Olefins

The CrHZSM-5 catalysts with trace amount of Cr were firstly used for catalytic cracking of isobutane, and the effect of Cr-loading on the catalytic performances of CrHZSM-5 catalysts for the cracking of isobutane was also studied. The results suggested that when the loading of Cr in the CrHZSM-5 catalysts was less than 0.038 mmol/g Cr, especially at Cr loading of 0.004 mmol/g, both the reactivity of isobutane cracking and the selectivity to light olefins of CrHZSM-5 samples were greatly enhanced compared with the unpromoted HZSM-5, and very high yields of olefins(C₂+C₃) and ethylene were obtained. For instance, the yield of olefins(C₂+C₃) and ethylene reached 56.1% and 30.8%, respectively, at 625 °C when 0.004 mmol/g Cr was loaded on HZSM-5 sample.     

介质阻挡放电常压低温等离子体转化甲烷制C2及高碳烃的研究

对介质阻挡放电(DBD)反应器用于甲烷常压低温等离子体转化过程,分别就停留时间、输入功率、内电极材料及温度、介质厚度等对反应的影响进行了研究。实验结果表明,甲烷转化率随停留时间、输入功率的增加而增加,但增加的幅度逐渐减小。内电极材料对反应积炭有很大的影响。紫铜和紫铜(镀银)材料能够有效地抑制积炭的产生,从而可以增加反应寿命,还对甲烷转化率有很大的影响。较低的内电极温度可以抑制积炭,但是甲烷转化率有所降低,同时液态高碳烃选择性增加。在甲烷流量较低时介质厚度对反应的影响很小,但随着甲烷流量的提高会逐渐增大,并且介质厚度越小,甲烷转化率越高。     

甲醇制烯烃技术进展及与石油烃裂解制烯烃对比

介绍了甲醇制烯烃技术的反应机理和主要的技术问题,并将甲醇制烯烃技术与传统的石油烃裂解制烯烃技术在分离工艺和对环境的影响方面进行了对比。通过对比,表明甲醇制烯烃工艺在能耗、环保等方面与石油路线相比具有一定的竞争力。     

Fe改性HZSM-5分子筛上甲醇耦合C4烃制低碳烯烃反应性能研究

用等体积浸渍法制备Fe改性HZSM-5分子筛催化剂（Fe/HZSM-5）。考察了Fe/HZSM-5在不同温度下对甲醇耦合C₄烃制低碳烯烃反应性能的影响,并利用紫外-可见漫反射光谱对Fe/HZSM-5进行了表征。结果表明,在低铁含量条件下,Fe改性HZSM-5分子筛上Fe（Ⅲ）主要以高分散隔离的形式存在于HZSM-5分子筛的表面,Fe改性提高了催化剂上的原料转化率以及乙烯和丙烯选择性,从而获得了较高的乙烯和丙烯总收率。在反应温度为550 ℃时,在Fe（Ⅲ）处理的HZSM-5分子筛上,乙烯和丙烯总收率最高可达42.1%,比未改性的HZSM-5提高了7％。     

高岭土附晶ZSM-5分子筛的合成及对正丁烷催化裂解性能

以高岭土微球为基体,在水热体系中成功地附晶生长了ZSM-5分子筛,并采用XRD、SEM、NH3-TPD和BET等测试手段对催化剂进行表征,考察高岭土附晶ZSM-5分子筛和对比催化剂在固定床微反装置上催化裂解正丁烷性能.结果表明,实验合成的高岭土附晶ZSM-5分子筛催化剂在正丁烷的催化裂解中具有更高的乙烯选择性,乙烯选择...     

ZSM-5催化剂上的甲醇转化研究

利用固定流化床反应器,考察了甲醇在改性ZSM-5分子筛催化剂上转化过程。实验结果表明:反应温度增加,甲醇转化率上升;乙烯和丙烯碳基选择性随温度增加而增加,且丙烯选择性的增加速率大于乙烯选择性的增加速率;油相产物的碳基选择性随温度增加而降低,而油相中芳烃浓度随温度的增加而增加;芳烃产物主要为C8芳烃,且C6芳烃、C7芳烃、C8芳烃随温度的增加而降低。由于分子筛酸性随温度的增加而变弱,降低了丙烯的氢转移反应速率,故丙烷/丙烯比随温度的增加而降低。