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Influences of regeneration atmospheres on structural transformation and renderability of fluidized catalytic cracking catalyst
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作者 Haigang Zhang Zhongjie Shen +1 位作者 Jianhong Gong Haifeng Liu 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2023年第11期71-80,共10页
The regeneration of fluidized catalytic cracking(FCC)catalysts is an essential process in petroleum processing.The current study focused the regeneration reaction characteristics of spent fluidized catalytic cracking ... The regeneration of fluidized catalytic cracking(FCC)catalysts is an essential process in petroleum processing.The current study focused the regeneration reaction characteristics of spent fluidized catalytic cracking catalyst(SFCC)at different atmospheres with influences on pore evolution and activity,for a potential way to reduce emission,produce moderate chemical product(CO),and maintain catalyst activity.The results show that regeneration in air indicates a satisfaction on removing coke on the catalyst surface while giving a poor effect on eliminating the coke inside micropores.This is attributed that the combustion in air led to a higher temperature and further transformed kaolinite phase to silicaaluminum spinel crystals,which tended to collapse and block small pores or expand large pores,with similar results observed in pure O_(2)atmosphere.Nevertheless,catalysts regenerated in O_(2)/CO_(2)diminished the combustion damage to the pore structure,of which the micro porosity after regeneration increased by 32.4% and the total acid volume rose to 27.1%.The regeneration in pure CO_(2)displayed low conversion rate due to the endothermic reaction and low reactivity.The coexistence of gasification and partial oxidation can promote regeneration and maintain the original structure and good reactivity.Finally,a mechanism of the regeneration reaction at different atmospheres was revealed. 展开更多
关键词 fluidized catalytic cracking Coke deposit REGENERATION Pore structure Gasification and combustion
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Enhancing hydrothermal stability of nano-sized HZSM-5 zeolite by phosphorus modification for olefin catalytic cracking of full-range FCC gasoline 被引量:12
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作者 Yun Zhao Jiaxu Liu +1 位作者 Guang Xiong Hongchen Guo 《Chinese Journal of Catalysis》 SCIE EI CAS CSCD 北大核心 2017年第1期138-145,共8页
In this study, phosphorus modification by trimethyl phosphate impregnation was employed to enhance the hydrothermal stability of nano‐sized HZSM‐5 zeolites. A parallel modification was studied by ammonium dihydrogen... In this study, phosphorus modification by trimethyl phosphate impregnation was employed to enhance the hydrothermal stability of nano‐sized HZSM‐5 zeolites. A parallel modification was studied by ammonium dihydrogen phosphate impregnation. The modified zeolites were subjected to steam treatment at 800 °C for 4 h (100% steam) and employed as catalysts for olefin catalyticcracking (OCC) of full‐range fluid catalytic cracking (FCC) gasoline. X‐ray diffraction, N2 physicaladsorption and NH3 temperature‐programmed desorption analysis indicated that, although significantimprovements to the hydrothermal stability of nano‐sized HZSM‐5 zeolites can be observedwhen adopting both phosphorus modification strategies, impregnation with trimethyl phosphatedisplays further enhancement of the hydrothermal stability. This is because higher structural crystallinityis retained, larger specific surface areas/micropore volumes form, and there are greaternumbers of surface acid sites. Reaction experiments conducted using a fixed‐bed micro‐reactor(catalyst/oil ratio = 4, time on stream = 4 s) showed OCC of full‐range FCC gasoline-under a fluidized‐bed reaction mode configuration-to be a viable solution for the olefin problem of FCC gasoline.This reaction significantly decreased the olefin content in the full‐range FCC gasoline feed, andspecifically heavy‐end olefins, by converting the olefins into value‐added C2–C4 olefins and aromatics.At the same time, sulfide content of the gasoline decreased via a non‐hydrodesulfurization process.Nano‐sized HZSM‐5 zeolites modified with trimethyl phosphate exhibited enhanced catalytic performance for OCC of full‐range FCC gasoline. 展开更多
关键词 Hydrothermal stability Nano‐sized HZSM‐5 Phosphorus modification Olefin catalytic cracking fcc gasoline
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A Novel Close-loop Strategy for Integrating Process Operations of Fluidized Catalytic Cracking Unit with Production Planning Optimization 被引量:4
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作者 王如强 李初福 +1 位作者 何小荣 陈丙珍 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2008年第6期909-915,共7页
Production planning models generated by common modeling systems do not involve constraints for process operations, and a solution optimized by these models is called a quasi-optimal plan. The quasi-optimal plan cannot... Production planning models generated by common modeling systems do not involve constraints for process operations, and a solution optimized by these models is called a quasi-optimal plan. The quasi-optimal plan cannot be executed in practice some time for no corresponding operating conditions. In order to determine a practi- cally feasible optimal plan and corresponding operating conditions of fluidized catalytic cracking unit (FCCU), a novel close-loop integrated strategy, including determination of a quasi-optimal plan, search of operating conditions of FCCU and revision of the production planning model, was proposed in this article. In the strategy, a generalized genetic algorithm (GA) coupled with a sequential process simulator of FCCU was applied to search operating conditions implementing the quasi-optimal plan of FCCU and output the optimal individual in the GA search as a final genetic individual. When no corresponding operating conditions were found, the final genetic individual based correction (FGIC) method was presented to revise the production planning model, and then a new quasi-optimal production plan was determined. The above steps were repeated until a practically feasible optimal plan and corresponding operating conditions of FCCU were obtained. The close-loop integrated strategy was validated by two cases, and it was indicated that the strategy was efficient in determining a practically executed optimal plan and corresponding operating conditions of FCCU. 展开更多
关键词 production planning process operations fluidized catalytic cracking unit integrated strategy
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Research on Catalytic Cracking Performance Improvement of Waste FCC Catalyst by Magnesium Modification 被引量:3
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作者 Yuan Chengyuan Tan Zhengguo +2 位作者 Pan Zhishuang Zhang Haitao Gao Xionghou 《China Petroleum Processing & Petrochemical Technology》 SCIE CAS 2018年第2期48-55,共8页
In this study,the deactivation mechanism caused by high accessibility of strong acid sites for the waste FCC catalyst was proposed and verified for the first time.Based on the proposed deactivation mechanism,magnesium... In this study,the deactivation mechanism caused by high accessibility of strong acid sites for the waste FCC catalyst was proposed and verified for the first time.Based on the proposed deactivation mechanism,magnesium modification through magnesium chloride impregnation was employed for the regeneration of waste FCC catalyst.The regenerated waste FCC catalyst was characterized,with its heavy oil catalytic cracking performance tested.The characterization results indicated that,in comparison with the unmodified waste FCC catalyst,the acid sites strength of the regenerated waste FCC catalyst was weakened,with no prominent alterations of the total acid sites quantity and textural properties.The heavy oil catalytic cracking results suggested that the catalytic cracking performance of the regenerated waste FCC catalyst was greatly improved due to the suitable surface acidity of the sample.In contrast with the unmodified waste FCC catalyst,the gasoline yield over the regenerated waste FCC catalyst significantly increased by 3.04 percentage points,meanwhile the yield of dry gas,LPG,coke and bottoms obviously decreased by 0.36,0.81,1.28 and 0.87 percentage points,respectively,making the regenerated waste FCC catalyst serve as a partial substitute for the fresh FCC catalyst.Finally,the acid property change mechanism was discussed. 展开更多
关键词 waste fcc catalyst REGENERATION magnesium modifcation catalytic cracking ACIDITY
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Ni/SFCC催化黑柴油加氢-裂解-脱硫同时制备汽油和柴油的性能
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作者 刘北 陈献琨 +3 位作者 陈小鹏 王琳琳 梁杰珍 符开威 《精细石油化工》 CAS 2023年第1期36-40,共5页
为了解决地炼厂黑柴油含硫高、十六烷值低和安定性差等问题,采用高压搅拌反应釜进行黑柴油加氢-裂解-脱硫同时制备汽油和柴油研究。以废催化裂化触媒为载体、镍为活性组分,采用等体积浸渍法制备了废催化裂化触媒负载镍催化剂(Ni/SFCC),... 为了解决地炼厂黑柴油含硫高、十六烷值低和安定性差等问题,采用高压搅拌反应釜进行黑柴油加氢-裂解-脱硫同时制备汽油和柴油研究。以废催化裂化触媒为载体、镍为活性组分,采用等体积浸渍法制备了废催化裂化触媒负载镍催化剂(Ni/SFCC),使用低温物理吸附、XRD、TG-DTA和H 2-TPR等分析测试方法表征了催化剂形貌。结果表明:Ni(NO 3)2/SFCC在480~562 K为硝酸镍热分解,在820 K和881 K时达到恒重;催化剂前驱体还原温度为573~813 K;在513 K、3.0 MPa、80 min、搅拌转速600 r/min、催化剂质量分数5%反应条件下,产品柴/汽比为67/33,硫含量≤10 mg/kg。 展开更多
关键词 柴油 汽油 催化裂化 催化加氢 脱硫精制
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Effects of the properties of FCCS on the removing of catalyst particles from FCCS under a DC electrostatic field 被引量:1
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作者 Qiang Li Qing-Zhu Qiu +3 位作者 Hao Cao Hui-Zhen Yang Wei-Wei Xu Zhao-Zeng Liu 《Petroleum Science》 SCIE EI CAS CSCD 2023年第3期1885-1894,共10页
Catalytic cracking is the main method to lighten heavy crude oil,this process can produce high quality oil products such as gasoline and diesel,but also produces a large amount of fluid catalytic cracking slurry(FCCS)... Catalytic cracking is the main method to lighten heavy crude oil,this process can produce high quality oil products such as gasoline and diesel,but also produces a large amount of fluid catalytic cracking slurry(FCCS).The catalyst particles in FCCS seriously restrict the secondary processing of FCCS and need to be removed,and the properties of Fccs is an important factor that affects the removal efficiency of the catalyst particles.Based on the"effective contact point"model proposed by the research group,this study further proposed the"electrostatic separation efficiency calculation"model.In this model,since Fccs has a uniform distribution of catalyst particles,the ratio of the number of catalyst particles can be expressed as the ratio of area to achieve the calculation of separation efficiency.Then the catalyst removal efficiency under different viscosity was analyzed,thus verifying the feasibility of this model.The effects of temperature and mass ratio of four components on the viscosity of FccS were investigated respectively,then the effects of temperature and four components'mass ratio on the electrostatic sep-aration can be directly converted into the effect of viscosity on the electrostatic separation efficiency.All the results show the electrostatic separation efficiency decreases with increasing viscosity,and the best separationtemperatureis120℃. 展开更多
关键词 Fluid catalytic cracking slurry(fccS) Separation efficiency VISCOSITY TEMPERATURE Four components'mass ratio
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Highly Selective Conversion of Olefin Components in FCC Gasoline to Propylene in Monolithic Catalytic Reactors
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作者 Li Yang Shao Qian +2 位作者 He Zhenfu Tian Huiping Long Jun (Research Institute of Petroleum Processing, SINOPEC, Beijing 100083) 《China Petroleum Processing & Petrochemical Technology》 SCIE CAS 2006年第3期21-25,共5页
The demand for propylene has been growing recently. The concentration of olefins in the gasoline is strictly limited by the related environmental regulations. The olefins contained in the gasoline used as the feed cou... The demand for propylene has been growing recently. The concentration of olefins in the gasoline is strictly limited by the related environmental regulations. The olefins contained in the gasoline used as the feed could be cracked into light olefins to slash the olefin concentration in the gasoline to yield more propylene at the same time. The monolithic catalyst washcoated on the modified ZSM-5 zeolite was used in the experiments. The effect of the temperature, the Si/Al ratio in ZSM-5 and the addition of the rare earth elements on the selectivities and the yields of the light olefins were studied. The high yields of propylene and butene could be obtained under the experimental conditions of a higher temperature and Si/Al ratio with the addition of rare earth elements. 展开更多
关键词 catalytic cracking fcc gasoline PROPYLENE ZSM-5 monolithic reactors
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Catalytic Cracking of Polyolefins in the Molten Phase——Basic Study for the Process Development of Waste Plastics Liquefaction
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作者 Haruki Tani Kaoru Fujimoto 《Journal of Environmental Science and Engineering(B)》 2017年第7期352-361,共10页
The cracking of polyolefins, especially polyethylene in the molten state was effectively catalyzed by the powdery spent FCC (Fluid Catalytic Cracking) catalyst which was dispersed in it. The activation energy of the... The cracking of polyolefins, especially polyethylene in the molten state was effectively catalyzed by the powdery spent FCC (Fluid Catalytic Cracking) catalyst which was dispersed in it. The activation energy of the catalytic cracking of polyethylene was about 74 kJ/mol. The cracked product was naphtha and middle distillate as the major product and gaseous hydrocarbon (C1-C4) as the minor product while little heavy oil was produced. The chemical compositions of the product were: aromatic hydrocarbons, isoparaffins and branched olefins, whereas that of the non-catalyzed products were: n-olefins and n-paraffins with minor amount of dienes with increasing the process time. Additionally, the product pattern shifted from naphtha rich product to kerosene and gas-oil rich product. However, any catalytic product showed low fluid point (〈 -10 ℃), while that of the non-catalyzed product was as high as 40 ℃. Catalyst could process, more than 100 times by weight of polyethylene with fairly small amount (- 30 wt%) of coke deposition. Spent catalyst gave higher hydrocarbons while fresh catalyst gave gaseous product as the major product. Other polyolefins such as polypropylene and polystyrene were tested on same catalyst to show that their reactivity is higher than that of polyethylene and gave the aliphatic products, alkyl benzenes and C6-C9 iso-paraffins as the major product. Product pattern of the cracked product suggested that the reaction proceeded via the primary reactions making paraffins and olefins which were followed by the isomerization, secondary cracking, aromatization and hydrogen transfer which based on the carbenium ion mechanism. 展开更多
关键词 POLYOLEFIN spent fcc (Fluid catalytic cracking catalyst catalytic cracking carbenium ion mechanism superiorstability.
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FCC废催化剂磁分离技术的工业应用 被引量:1
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作者 林瀚 刘甜甜 +3 位作者 廉政 祝汉国 张新功 吕灵灵 《工业催化》 CAS 2023年第8期70-76,共7页
利用电磁分离设备和永磁分离设备,对4种典型的FCC废催化剂进行分离,考察废催化剂中金属含量对磁分离效果的影响,同时对比分析两种类型磁分离设备的使用效果。结果表明,磁分离对满足特定条件的FCC废催化剂中低金属颗粒的回收有明显效果... 利用电磁分离设备和永磁分离设备,对4种典型的FCC废催化剂进行分离,考察废催化剂中金属含量对磁分离效果的影响,同时对比分析两种类型磁分离设备的使用效果。结果表明,磁分离对满足特定条件的FCC废催化剂中低金属颗粒的回收有明显效果。在工业应用中,应有选择性地采用磁分离设备对FCC废催化剂进行回收。 展开更多
关键词 三废处理与综合利用 催化裂化 fcc废催化剂 磁分离 工业应用
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FCC汽油中硫分布和催化脱硫研究 被引量:64
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作者 山红红 李春义 +3 位作者 赵博艺 杜峰 杨朝和 张建芳 《石油大学学报(自然科学版)》 EI CSCD 北大核心 2001年第6期78-80,共3页
对胜利石油化工总厂的FCC汽油中的硫含量、硫分布及硫化物的种类进行了分析。该汽油中的硫含量高 ,且 90 %的硫都集中在占 65 %的 10 0℃以上的汽油馏分中。采用配有PFPD检测器的色谱分析了 10 0℃以上的汽油馏分中硫化物的种类 ,结果表... 对胜利石油化工总厂的FCC汽油中的硫含量、硫分布及硫化物的种类进行了分析。该汽油中的硫含量高 ,且 90 %的硫都集中在占 65 %的 10 0℃以上的汽油馏分中。采用配有PFPD检测器的色谱分析了 10 0℃以上的汽油馏分中硫化物的种类 ,结果表明 ,近 90 %的硫化物都是噻吩类化合物。对不同的汽油脱硫方法进行了分析 ,提出了汽油催化裂化脱硫全新方法 ,并开发出了具有显著脱硫效果的脱硫催化剂。 展开更多
关键词 催化裂化 fcc汽油 硫分布 脱硫 催化裂化
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聚丙烯及聚苯乙烯催化共热解的产物分布规律
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作者 王菁 邵凡 +2 位作者 马跃 李术元 岳长涛 《塑料》 CAS CSCD 北大核心 2024年第4期84-89,共6页
将聚丙烯与聚苯乙烯等质量混合物在小型固定流化床内进行催化共热解,选用废FCC催化剂,分析了温度、催化剂比例、载气流速(停留时间)对热解产物分布及组成的影响。在480~560℃下进行实验,将水蒸气作为载气,催化剂与反应物的比例为2:6、... 将聚丙烯与聚苯乙烯等质量混合物在小型固定流化床内进行催化共热解,选用废FCC催化剂,分析了温度、催化剂比例、载气流速(停留时间)对热解产物分布及组成的影响。在480~560℃下进行实验,将水蒸气作为载气,催化剂与反应物的比例为2:6、载气流速为0.5~2.0 mL水/min。液体与气体产物组成分别采用气相色谱质谱联用(GC⁃MS)及气相色谱(GC)进行分析。结果表明,催化共热解产物主要由油、气及积碳组成,三者的最高收率分别为75.65%、15.77%及5.55%。温度与催化剂比例的提高促进了裂解反应的发生,而随着停留时间的增加,发生二次反应数量增加,例如聚合、环化及异构化等。共热解油以芳烃为主,收率可达到69.16%,烷烃及烯烃含量较低,热解气以C_(1)~C_(4)为主,其中,与烷烃相比,烯烃总收率较高,可达到62.87%。在所有气态烃中,丙烯的含量最大,其值为37.83%。 展开更多
关键词 聚丙烯 聚苯乙烯 催化共热解 fcc催化剂 固定流化床
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生产低硫汽油新型FCC催化剂研究进展 被引量:19
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作者 庞新梅 孙书红 高雄厚 《石化技术与应用》 CAS 2001年第6期384-388,397,共6页
介绍了国内外低硫汽油生产技术 ,重点讨论了催化裂化过程硫转化机理及国内外脱硫FCC催化剂的研究开发现状。结果表明 :在B酸或L酸的作用下 ,通过氢转移使FCC汽油中的噻吩硫及其衍生物分解生成H2 S气体 ,以达到降低FCC汽油硫含量的目的 ... 介绍了国内外低硫汽油生产技术 ,重点讨论了催化裂化过程硫转化机理及国内外脱硫FCC催化剂的研究开发现状。结果表明 :在B酸或L酸的作用下 ,通过氢转移使FCC汽油中的噻吩硫及其衍生物分解生成H2 S气体 ,以达到降低FCC汽油硫含量的目的 ,这在反应机理上是可行的 ,因此 ,开发新型FCC催化剂 ,对于实现催化裂化过程直接脱硫 ,生产低硫汽油具有实际意义。 展开更多
关键词 催化裂化 催化裂化催化剂 汽油 脱硫 低硫汽油 fcc 研究进展
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FCC汽油非临氢脱硫技术进展 被引量:25
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作者 王宏伟 贺振富 田辉平 《化工进展》 EI CAS CSCD 北大核心 2005年第11期1216-1224,共9页
综述了国内外开发和应用的FCC汽油非临氢脱硫技术,该技术主要有生物脱硫、催化裂化脱硫、吸附脱硫、溶剂抽提脱硫、烷基化脱硫、氧化脱硫和膜分离脱硫等;评述了催化裂化脱硫、吸附脱硫和氧化脱硫等技术的特点和研究应用前景。
关键词 fcc汽油 非临氢脱硫 催化裂化 吸附 氧化
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ZRP沸石对FCC汽油催化裂解产丙烯的影响 被引量:10
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作者 邵潜 李阳 +2 位作者 田辉平 贺振富 龙军 《石油学报(石油加工)》 EI CAS CSCD 北大核心 2007年第2期8-11,共4页
研究了在550℃、常压、加入水蒸气条件下,FCC汽油在ZRP沸石上的催化裂解反应和ZRP沸石硅/铝比(n(SiO2)/n(Al2O3))变化及稀土改性ZRP对反应的影响。实验结果和反应前后反应物与产物分布的计算结果表明,FCC汽油中烯烃进行裂化反应生成丙... 研究了在550℃、常压、加入水蒸气条件下,FCC汽油在ZRP沸石上的催化裂解反应和ZRP沸石硅/铝比(n(SiO2)/n(Al2O3))变化及稀土改性ZRP对反应的影响。实验结果和反应前后反应物与产物分布的计算结果表明,FCC汽油中烯烃进行裂化反应生成丙烯。提高烯烃的选择性转化、促进裂化反应并提高丙烯产物的选择性,有利于提高丙烯产率。提高ZRP沸石的n(SiO2)/n(Al2O3)能够增加其强酸量,使烯烃的转化率和低碳烯烃的选择性有所提高,但丁烯选择性高于丙烯的选择性。采用稀土改性也可使ZRP沸石增加强酸量,提高烯烃的转化率和丙烯的选择性,使74.32%的烯烃被转化,裂解汽油烯烃质量分数为18.20%,丙烯选择性达到45.91%。 展开更多
关键词 fcc汽油 烯烃 催化裂解 ZRP沸石 稀土 丙烯
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FCC轻汽油催化裂化生产丙烯反应规律的研究 被引量:11
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作者 李晓红 沙有鑫 +3 位作者 李春义 张建芳 杨朝合 山红红 《燃料化学学报》 EI CAS CSCD 北大核心 2007年第2期181-187,共7页
在提升管实验装置和脉冲色谱装置上,采用ZSM-5催化剂,考察了不同条件下FCC轻汽油和2M-1-C=5的裂化。结果表明,催化裂化过程添加ZSM-5催化剂可提高汽油中C=5、C=6的质量分数。轻汽油裂化生产丙烯的性能优于重汽油和全馏分汽油,在相对低... 在提升管实验装置和脉冲色谱装置上,采用ZSM-5催化剂,考察了不同条件下FCC轻汽油和2M-1-C=5的裂化。结果表明,催化裂化过程添加ZSM-5催化剂可提高汽油中C=5、C=6的质量分数。轻汽油裂化生产丙烯的性能优于重汽油和全馏分汽油,在相对低的温度下瞬时反应能得到较高的丙烯收率。在脉冲色谱装置上,反应温度和载气流量对轻汽油和2M-1-C=5裂化生产丙烯的影响一致,即反应温度升高,载气流量降低,丙烯收率增加。提高反应温度,延长停留时间可以提高丙烯对丁烯的比例。轻汽油在ZSM-5催化剂上反应,催化剂结焦失活速度开始较快,后来减缓。ZSM-5催化剂结焦失活对丙烯生成的抑制作用大于对丁烯的抑制作用,ZSM5-的强酸中心多则更有利于生成丙烯。 展开更多
关键词 fcc轻汽油 异己烯 催化裂化 丙烯 ZSM-5
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固体磷酸催化FCC汽油烷基化脱硫的活性和稳定性 被引量:12
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作者 王榕 李永红 +2 位作者 张丽萍 扬长生 夏淑倩 《化学反应工程与工艺》 EI CAS CSCD 北大核心 2008年第1期40-44,共5页
实验考察了不同温度焙烧得到的固体磷酸在催化流化催化裂化汽油烷基化脱硫反应中的活性和稳定性。通过X射线衍射(XRD)表征,研究了催化剂的结晶度和晶相比对其催化活性和稳定性的影响。结果表明,随着焙烧温度升高,固体磷酸的结晶度变大,... 实验考察了不同温度焙烧得到的固体磷酸在催化流化催化裂化汽油烷基化脱硫反应中的活性和稳定性。通过X射线衍射(XRD)表征,研究了催化剂的结晶度和晶相比对其催化活性和稳定性的影响。结果表明,随着焙烧温度升高,固体磷酸的结晶度变大,正磷酸硅与焦磷酸硅的晶相比减小;而高结晶度、高正磷酸硅与焦磷酸硅晶相比的固体磷酸催化剂具有较好的活性和稳定性。 展开更多
关键词 固体磷酸 流化催化裂化汽油 脱硫 烷基化
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FRS全馏分FCC汽油加氢脱硫技术开发及工业应用 被引量:32
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作者 秦小虎 黄磊 +2 位作者 赵乐平 段为宇 刘继华 《当代化工》 CAS 2007年第1期37-39,共3页
抚顺石油化工研究院(FRIPP)开发的FRS全馏分FCC汽油加氢脱硫技术具有大幅度降低催化汽油硫含量和烯烃含量而辛烷值损失较低的特点。在中国石油化工股份有限公司九江分公司0.4Mt/a装置上的工业应用结果表明,FRS技术能够为我国炼油厂生产... 抚顺石油化工研究院(FRIPP)开发的FRS全馏分FCC汽油加氢脱硫技术具有大幅度降低催化汽油硫含量和烯烃含量而辛烷值损失较低的特点。在中国石油化工股份有限公司九江分公司0.4Mt/a装置上的工业应用结果表明,FRS技术能够为我国炼油厂生产清洁汽油提供灵活、经济的技术解决方案。 展开更多
关键词 催化裂化(fcc)汽油 加氢脱硫 辛烷值 工业应用
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FCC汽油二次裂化增产丙烯过程中主要影响因素的研究 被引量:4
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作者 王为然 张文斌 +3 位作者 王刚 蓝兴英 徐春明 高金森 《燃料化学学报》 EI CAS CSCD 北大核心 2009年第1期65-70,共6页
利用提升管中试实验装置,研究了催化汽油二次裂化制丙烯过程中热裂化、氢转移反应的特点和影响因素,给出了不同反应条件对丙烯选择性的影响,考察了丙烯选择性最大点处热裂化反应、氢转移反应的变化。研究结果表明,采用适当的反应温度和... 利用提升管中试实验装置,研究了催化汽油二次裂化制丙烯过程中热裂化、氢转移反应的特点和影响因素,给出了不同反应条件对丙烯选择性的影响,考察了丙烯选择性最大点处热裂化反应、氢转移反应的变化。研究结果表明,采用适当的反应温度和剂油比以及缩短反应时间能有效抑制热裂化反应和氢转移反应的发生,提高丙烯的选择性。 展开更多
关键词 催化汽油 催化裂化 热裂化 氢转移 丙烯选择性
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CGO关键组分结构分析及其对FCC反应性能的影响 被引量:10
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作者 李泽坤 王刚 +2 位作者 刘银东 史权 高金森 《石油学报(石油加工)》 EI CAS CSCD 北大核心 2010年第5期691-699,共9页
以大港焦化蜡油(CGO)400~425℃窄馏分为研究对象,采用盐酸+糠醛分级抽提的方法富集其中的碱性氮化物及稠环芳烃,采用GC-MS对抽出物进行结构分析,并比较了抽提前后油样的FCC反应性能。结果表明,盐酸抽出相中的碱性氮化物主要是氮杂菲系... 以大港焦化蜡油(CGO)400~425℃窄馏分为研究对象,采用盐酸+糠醛分级抽提的方法富集其中的碱性氮化物及稠环芳烃,采用GC-MS对抽出物进行结构分析,并比较了抽提前后油样的FCC反应性能。结果表明,盐酸抽出相中的碱性氮化物主要是氮杂菲系和氮杂芘系,其中以苯并喹啉系及二苯并喹啉系含量最多;这类化合物与催化剂活性中心结合,使催化剂活性下降。糠醛再抽提抽出相中的稠环芳烃包括荧蒽、苯基萘、菲蒽系、芘系及苯并芘系,其中3~4环的稠环芳烃所占比例最大;这类化合物在催化剂表面缩合生焦,降低了CGO的FCC反应性能。盐酸及糠醛抽余油的FCC反应性能均得到了改善,但糠醛抽余油的改善程度不及盐酸抽余油;碱性氮化物对CGO的FCC反应性能的影响比稠环芳烃大。 展开更多
关键词 焦化蜡油(CGO) 溶剂抽提 碱性氮化物 稠环芳烃 流化催化裂化(fcc)
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FCC汽油催化转化动力学模型 被引量:4
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作者 刘福安 侯栓弟 +2 位作者 龙军 武雪锋 张占柱 《石油学报(石油加工)》 EI CAS CSCD 北大核心 2005年第6期32-39,共8页
以催化裂化反应机理为基础,将FCC汽油原料及产品按馏程和化学组成进行集总划分。考虑裂化、氢转移、芳构化和缩合等反应,对反应网络进行合理简化,提出了一种接近分子水平的动力学模型。通过参数估算求取14个动力学速率常数、反应活化能... 以催化裂化反应机理为基础,将FCC汽油原料及产品按馏程和化学组成进行集总划分。考虑裂化、氢转移、芳构化和缩合等反应,对反应网络进行合理简化,提出了一种接近分子水平的动力学模型。通过参数估算求取14个动力学速率常数、反应活化能和指前因子,建立了汽油催化转化反应的十集总动力学模型。研究结果表明,采用该模型能预测不同反应条件下汽油转化反应产率分布和产品中汽油的烃类组成。 展开更多
关键词 催化转化反应 fcc汽油 催化裂化反应 动力学模型 活化能
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