烯烃裂解中分子筛催化剂的稳定性研究进展

低碳烯烃催化裂解增产丙烯是一项新技术,高水热稳定催化剂的研究和开发是关键技术之一,硅酸铝分子筛催化剂因具有相对较好的稳定性而得到了广泛研究. 本文总结了HY, HZSM-5和 MCM-22等微孔、介孔以及具有微-介孔复合结构的新型分子筛在烯烃催化裂解反应中的稳定性,特别是水热稳定性方面的研究进展,归纳了提高酸性分子筛催化剂水热稳定性的方法,比较了不同方法制得分子筛的催化裂解性能,对高稳定性催化剂在实际应用中的问题和前景进行了探讨,为研发新一代低碳烯烃裂解催化剂提供参考.     

分子筛材料研究及其在催化裂化过程中的应用前景

对近年来新合成的分子筛材料,如超大微孔分子筛、介孔分子筛、含D4R结构单元的分子筛的孔结构及合成技术进行综述,并探讨了这些新分子筛材料在催化裂化过程中的应用前景。     

吸热型碳氢燃料裂解引发剂筛选及引发机理分析

筛选可溶性添加剂替代多相催化剂, 达到促进吸热型碳氢燃料裂解、提高燃料热沉以及燃烧性能的目的. 采用考察裂解气相产物气体流量的方法进行实验. 测试了10种添加剂在500～650 ℃范围内对正庚烷裂解效果的影响. 研究发现, 三乙胺、2,6-二叔丁基对甲酚(BHT)可促进正庚烷裂解, 其它添加剂均无显著效果. 在550 ℃时, 当三乙胺质量分数达到6%时, 实验总气体收率比计算总气体收率增加80%以上. 机理研究表明, 三乙胺的引发剂基团来源于C—N键的断裂. BHT的结构、性状与前者显著不同, 在550 ℃时, 当BHT质量分数为3.4%时体系的气体收率较之纯正庚烷裂解气体收率增加80%以上, BHT的引发基团主要是连接于叔丁基上的甲基发生脱离的结果     

Research on Hazardous Waste Removal Management: Identification of the Hazardous Characteristics of Fluid Catalytic Cracking Spent Catalysts

Fluid catalytic cracking (FCC) spent catalysts are the most common catalysts produced by the petroleum refining industry in China. The National Hazardous Waste List (2016 edition) lists FCC spent catalysts as hazardous waste, but this listing is very controversial in the petroleum refining industry. This study collects samples of waste catalysts from seven domestic catalytic cracking units without antimony-based passivation agents and identifies their hazardous characteristics. FCC spent catalysts do not have the characteristics of flammability, corrosiveness, reactivity, or infectivity. Based on our analysis of the components and production process of the FCC spent catalysts, we focused on the hazardous characteristic of toxicity. Our results show that the leaching toxicity of the heavy metal pollutants nickel, copper, lead, and zinc in the FCC spent catalyst samples did not exceed the hazardous waste identification standards. Assuming that the standards for antimony and vanadium leachate are 100 times higher than that of the surface water and groundwater environmental quality standards, the leaching concentration of antimony and vanadium in the FCC spent catalyst of the G set of installations exceeds the standard, which may affect the environmental quality of surface water or groundwater. The quantities of toxic substances in all spent FCC catalysts, except those from G2, does not exceed the standard. The acute toxicity of FCC spent catalysts in all installations does not exceed the standard. Therefore, we exclude “waste catalysts from catalytic cracking units without antimony-based passivating agent passivation nickel agent” from the “National Hazardous Waste List.”     

Nickel Poisoning of a Cracking Catalyst Unravelled by Single‐Particle X‐ray Fluorescence‐Diffraction‐Absorption Tomography

Ni contamination from crude oil in the fluid catalytic cracking (FCC) process is one of the primary sources of catalyst deactivation, thereby promoting dehydrogenation–hydrogenation and speeding up coke growth. Herein, single‐particle X‐ray fluorescence, diffraction and absorption (μXRF‐μXRD‐μXAS) tomography is used in combination with confocal fluorescence microscopy (CFM) after thiophene staining to spatially resolve Ni interaction with catalyst components and study zeolite degradation, including the processes of dealumination and Brønsted acid sites distribution changes. The comparison between a Ni‐lean particle, exposed to hydrotreated feedstock, and a Ni‐rich one, exposed to non‐hydrotreated feedstock, reveals a preferential interaction of Ni, found in co‐localization with Fe, with the γ‐Al₂O₃ matrix, leading to the formation of spinel‐type hotspots. Although both particles show similar surface zeolite degradation, the Ni‐rich particle displays higher dealumination and a clear Brønsted acidity drop.     

纤维增强树脂基复合材料的疲劳剩余刚度研究进展

回顾了过去二十年来公开发表的复合材料刚度退化的主要模型,对这些模型做了分类和讨论.按照模型的理论基础及研究方法将它们分为了理论模型、半经验模型和经验模型三类.理论模型是指那些完全依赖于力学分析而得到的模型,这类模型建立了材料的微观损伤机理与宏观刚度退化之间的关系.经验模型通常不需要过多的力学分析,仅对大量实验数据进行经验性拟合,一般具有简单易用的形式.半经验模型是理论与经验模型的结合------在力学分析基础上的经验处理.      

烯烃在催化裂化催化剂上反应机理的初步研究

在自制的微反-色谱装置上,进行了单体烯烃和催化裂化汽油在不同条件下的催化裂化反应实验。对单体烯烃的裂化反应规律和汽油中的烯烃在半再生催化剂和待生催化剂上的催化裂化反应规律进行对比分析。结果表明,单体烯烃反应中,C6及C6以下的烯烃主要发生骨架异构和双键异构反应,氢转移和直接裂化反应发生的较少。C7以上的烯烃95%以上发生转化,高温下直接裂化生成C3、C4,氢转移和异构化比率较大。汽油中的烯烃转化主要集中在C7以上,烯烃之间存在一定的交互作用,单体烯烃的催化裂化反应规律可以初步预测汽油中烯烃的转化。催化剂上的结焦类型对汽油中的烯烃的转化方式没有影响。     

两段变温法水热合成多级孔ZSM-5分子筛及其催化裂化性能

以四丙基氢氧化铵（TPAOH）为单一模板剂,采用低温老化、高温晶化2段变温法合成出了球状多级孔ZSM-5分子筛。利用XRD、FT-IR、NH₃-TPD、SEM、TEM以及氮气吸-脱附等测试对合成样品进行了表征。结果表明：直径约为2 μm左右的球状多级孔ZSM-5分子筛颗粒内的晶间介孔和大孔主要由棒状纳米晶堆积而成的,该产品具有较大的比表面积和介孔孔容。同常规水热法一步合成的微孔ZSM-5分子筛相比,2段变温法合成的多级孔ZSM-5分子筛具有更高的B酸/L酸比例（C_BP/C_LP）、强酸/弱酸比例（C_s/Cw）以及活性位可接近性指数（ACI）。催化裂化评价结果显示,得益于活性位可接近性指数等指标的提高,球状多级孔ZSM-5分子筛比常规合成的微孔ZSM-5分子筛具有更高的转化率和丙烯收率等优异的催化性能。     

On the Nature of Extra-Framework Aluminum Species and Improved Catalytic Properties in Steamed Zeolites

Steamed zeolites exhibit improved catalytic properties for hydrocarbon activation (alkane cracking and dehydrogenation). The nature of this practically important phenomenon has remained a mystery for the last six decades and was suggested to be related to the increased strength of zeolitic Bronsted acid sites after dealumination. We now utilize state-of-the-art infrared spectroscopy measurements and prove that during steaming, aluminum oxide clusters evolve (due to hydrolysis of Al out of framework positions with the following clustering) in the zeolitic micropores with properties very similar to (nano) facets of hydroxylated transition alumina surfaces. The Bronsted acidity of the zeolite does not increase and the total number of Bronsted acid sites decreases during steaming. O₅Al(VI)-OH surface sites of alumina clusters dehydroxylate at elevated temperatures to form penta-coordinate Al₁O₅ sites that are capable of initiating alkane cracking by breaking the first C-H bond very effectively with much lower barriers (at lower temperatures) than for protolytic C-H bond activation, with the following reaction steps catalyzed by nearby zeolitic Bronsted acid sites. This explains the underlying mechanism behind the improved alkane cracking and alkane dehydrogenation activity of steamed zeolites: heterolytic C-H bond breaking occurs on Al-O sites of aluminum oxide clusters confined in zeolitic pores. Our findings explain the origin of enhanced activity of steamed zeolites at the molecular level and provide the missing understanding of the nature of extra-framework Al species formed in steamed/dealuminated zeolites.