首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到18条相似文献,搜索用时 203 毫秒
1.
考虑了烯烃、醇与酸的再吸附及其非本征效应(烯烃、醇与酸在催化剂孔道中的扩散作用、物理吸附及溶解度效应)对产物分布的影响,推导了基于详细反应机理的亚甲基插入的烷基机理F-T合成校正综合动力学模型.利用文献数据对动力学模型进行了回归,获得了与文献报道结果相一致的动力学参数.由校正动力学模型计算的烷烃、烯烃、醇与酸产物分布及烯烃比、醇烃比及酸烃比与实验数据较好地吻合.动力学计算结果表明,在铁锰催化剂上,烷烃、烯烃、醇与酸生成的反应是平行竞争反应,烯烃、醇与酸在催化剂表面的再吸附及二次反应导致产物分布偏离了ASF分布.动力学研究还表明,相同碳数的醇与酸产物在催化剂表面上再吸附及二次反应的机会比相同碳数的烯烃大.通过比较相同碳数的烯烃、醇与酸的分子体积及沸点,指出了在铁锰催化剂上,低碳数的烯烃、醇与酸的再吸附及二次反应对产物分布影响的非本征效应中,烯烃、醇与酸的扩散阻力不是主导效应.  相似文献   

2.
 利用转篮式无梯度反应器,在工业Fe-Mn催化剂上,在较宽的工业操作相关的反应条件下进行了F-T合成反应动力学研究. 首次提出了利用转篮式无梯度反应器反应气氛和反应温度均一的优势,将烃生成反应动力学的估算从传统的对烃生成和水煤气变换这两类发生在不同活性中心的反应同时进行估算的方法中分离出来,简化了烃生成动力学模型的计算. 在基于亚甲基插入的亚烷基机理动力学模型基础上,考虑到乙烯与催化剂表面强的相互作用,将乙烯和乙烷的生成动力学参数单独计算. 动力学模型计算的链增长、烷烃和烯烃生成的活化能均与文献报道值具有较好的一致性. 由F-T合成动力学模型计算的合成气消耗速率、甲烷生成速率和C5+的生成速率较好地与实验值吻合. 通过动力学模型并结合实验结果分析发现,未考虑除化学反应之外的非本征因素的烯烃再吸附动力学模型不能够正确预测烃产物分布偏离ASF规律及烯烷比随碳数增加而下降的现象.  相似文献   

3.
 在典型的Co系催化剂工业操作条件范围(T=473~503 K,p=1.5~4.0 MPa, H2/CO体积比=1.0~3.0)内,采用等温积分固定床反应器对Co/ZrO2/SiO2催化剂进行了F-T合成反应动力学研究. 依据详细可靠的基元反应机理,按照Langmuir-Hinshelwood-Hougen-Watson动力学推导方法,获得了Co系催化剂上基于详细反应机理的动力学模型. 通过动力学实验数据的回归分析,发现基于COs直接解离并以烷基为链增长中间体的表面碳物种机理的动力学模型可以较好地描述Co/ZrO2/SiO2催化剂上的F-T合成反应结果,该模型可自洽地描述F-T合成过程中的合成气消耗和烃产物分布状况,且获得的反应活化能等关键动力学参数与文献报道的理论结果基本一致.  相似文献   

4.
CO和H_2在沉淀铁催化剂上的化学吸附和程序升温脱附   总被引:2,自引:1,他引:1  
铁催化剂是一种重要的F-T 合成催化剂。本文的目的是通过CO 和H_2在浆态相F-T合成采用的无载体沉淀铁催化剂上的化学吸附和程序升温脱附(TPD)的实验结果,考察钾的加入对催化剂性能的影响。实验采用共沉淀法制备的Fe-Cu(Fe65w%;Cu 0.6w%,其余为平衡氧)和Fe-Cu-K(Fe,Cu 含量同上,K0.1w%,其余为平衡氧)两种催化剂。程序升温脱附实验在装有四极质谱仪的吸附-解吸系统内进行。化学吸附用Chemisorb 2800装置测  相似文献   

5.
本文得到了适应于一氧化碳加氢加压体系非线性动态分析不同吸附物种动力学参数的模型,并优化出工业铜锌催化剂上合成甲醇反应中可逆吸附氢和可逆吸附一氧化碳的吸附速率常数及吸附平衡常数。结果表明:铜锌催化剂上吸附可逆氢比吸附一氧化碳快7倍左右。由于铜锌催化剂上甲醇的生成是可逆吸附氢与可逆吸附一氧化碳共同作用的结果,且铜锌催化剂 可逆吸一氧化碳的表面浓度随气相一氧化碳分压的增加而增加,因而加压将有利于合成甲醇  相似文献   

6.
 采用单位键指标-二次指数势(UBI-QEP)方法对模型催化剂Co(0001)晶面进行了费-托(F-T)合成反应的反应能学分析,发现以不含氧的CxHy,s 作为中间体的表面碳化物机理在能量上较为合理,而CH2,s 作为链增长单体的链增长方式是能量上最有利的F-T合成反应途径. 在Co/ZrO2/SiO2催化剂上的非稳态实验研究中发现,在F-T合成的操作温度范围内,H2O的生成是主要的表面O的移去方式; CO解离和表面碳物种Cs加氢可能是F-T合成中的重要速控步骤; 链增长过程是F-T合成反应中较快的基元反应步骤; 甲烷的生成具有多种不同活性的表面前驱体,导致生成的甲烷严重偏离经典的ASF分布规律. 结合F-T合成表面反应的研究结果,初步确定了F-T合成动力学研究中需要考虑的机理模型的范围是以CO解离和表面碳物种Cs加氢为速控步骤,以CH2,s 插入为链增长途径的表面碳化物机理. 该结果缩小了待选动力学模型的范围.  相似文献   

7.
通过计算和实验研究相结合的方法研究丙烷甲醇共进料制烯烃反应热力学及动力学过程.热力学过程采用Gibbs最小自由能法模拟丙烷甲醇制烯烃反应体系的平衡组成,同时结合响应面分析法建立了温度、压力、丙烷甲醇进料摩尔比对产物中丙烯的摩尔分数的函数关系,通过回归方程分析最佳工艺范围.热力学分析了反应条件对平衡产物的影响,随着反应温度升高,平衡产物丙烯的质量分数先增高后降低;平衡产物中丙烯的质量分数随着丙烷甲醇进料中丙烷摩尔比增高而增高,但是实际的反应状态和催化剂也是相关的,因此研究了存在催化剂情况下,丙烷脱氢和丙烷甲醇共进料反应的活化能.反应活化能动力学实验表明,通过添加少量甲醇可以降低耦合过程中丙烷脱氢表观活化能.  相似文献   

8.
研究了还原温度对Fe-Mo催化剂性质及费托(F-T)合成性能的影响.采用N2物理吸附、X射线衍射、穆斯堡尔谱和H2程序升温脱附技术对催化剂进行了表征.结果表明,随还原温度升高,金属铁晶粒粒径增大,金属铁上的H2吸附量先升后降;催化剂还原度提高,反应态催化剂碳化铁含量递增.催化剂F-T合成性能在280℃、1.5MPa、2000h-1、合成气H2/CO比为2.0条件下在固定床反应器中测试.反应结果表明,随还原温度提高,催化剂接近稳态时的活性和重质烃选择性(C5+)先升后降,而甲烷选择性则先降后升.350℃还原催化剂具有最佳F-T合成反应性能.  相似文献   

9.
研究了还原温度对Fe-Mo催化剂性质及费托(F-T)合成性能的影响。采用N2物理吸附、X射线衍射、穆斯堡尔谱和H2程序升温脱附技术对催化剂进行了表征。结果表明,随还原温度升高,金属铁晶粒粒径增大,金属铁上的H2吸附量先升后降;催化剂还原度提高,反应态催化剂碳化铁含量递增。催化剂F-T合成性能在280 ℃、1.5 MPa、2 000 h-1、合成气H2/CO比为2.0条件下在固定床反应器中测试。反应结果表明,随还原温度提高,催化剂接近稳态时的活性和重质烃选择性(C5+)先升后降,而甲烷选择性则先降后升。350 ℃还原催化剂具有最佳F-T合成反应性能。  相似文献   

10.
采用三苯基膦羰基氢化铑作为催化剂,进行1-丁烯氢甲酰化合成戊醛反应,主要考察温度、铑浓度、配体浓度、丁烯浓度、合成气中H2和CO分压等因素对反应速率的影响.动力学研究表明温度、Rh浓度、丁烯浓度和H2分压的增加均可提高反应速度,CO分压和配体量的增加使反应速度降低.给出了RhH(CO)(PPh3)3催化1-丁烯氢甲酰化的反应动力学方程,并采用非线性最小二乘法对模型进行参数估值,计算值与实验值具有较好的一致性.  相似文献   

11.
The isothermal kinetics of the Fischer-Tropsch synthesis (FTS) over Fe-Cu-K spray-dried catalyst was studied in a spinning basket reactor. The experiments were carried out at a constant temperature of 523 K, n(H2)/n(CO) feed ratios of 0.8-2.0, reactor pressures of 1.1-2.5 MPa, and space velocity of 0.556×10-3 Nm3/kgcat·s. Kinetic model for hydrocarbon formation was derived on the basis of simplified carbide mechanism to reduce the number of parameters. Two individual rate constants for methane and ethene were considered. Furthermore, the model was modified empirically by non-intrinsic effect, such as physisorption and fictitious olefin pressures that were taken into account, and the influences of secondary reaction of α-olefins on product distribution. The simulation results showed that the experimental phenomena of FTS and the deviations from ASF distribution, such as the relatively high yield of methane and low yield of ethene observed experimentally could be depicted basically.  相似文献   

12.
Several models have been proposed to describe the carbon number product distribution and mechanism in Fischer-Tropsch synthesis (FTS). However, these models have not fully explained the product distribution and mechanism owing to the wide range and complexity of hydrocarbons in FTS. This study was conducted based on the Yao and Anderson-Schulz-Flory (ASF) carbon number product distribution models for light (C1–C6) hydrocarbon products of a Fe/Al2O3 catalyst. The product distribution based on the molar ratio of olefin to paraffin (O/P) and the neighboring olefins was also studied in order to better understand the mechanism in FTS and C2 olefin deviation during FTS.Two sets of experiments (A and B) with different reaction conditions were conducted in microtubular fixed-bed reactors on the Fe/Al2O3 catalyst for 2249 h and 360 h, respectively. We found that the α values from the Yao and ASF carbon number product distribution models are relatively similar. The α values from the Yao carbon number product distribution plots are relatively constant, irrespective of the reaction conditions.Interestingly, it was also found that the secondary reactions of the C2 olefin by re-adsorption to produce paraffins and long-chain olefins are dependent on the CO conversion and the reaction temperature during the FTS. Also, the product distribution of the neighboring olefins during the reduction condition gave a similar trend to what was observed for other reaction conditions. This result confirmed what was observed in the Yao and ASF carbon number product distribution of the olefins.  相似文献   

13.
We used skeletal Co as the core to prepare a skeletal Co@HZSM-5 core-shell catalyst by growing an HZSM-5 membrane on skeletal Co via hydrothermal synthesis. The physicochemical properties of the catalyst were determined using elemental analysis, N2 physisorption, X-ray powder diffraction (XRD), scanning electron microscopy (SEM), and NH3 desorption. In gas-phase Fischer-Tropsch synthesis (FTS), the skeletal Co@HZSM-5 core-shell catalyst was more efficient than a physically mixed skeletal Co-HZSM-5 catalyst in cracking long-chain hydrocarbons, giving higher selectivity for C5-C11 gasoline products. The thickness of the zeolite shell on the skeletal Co@HZSM-5 core-shell catalyst was easily tuned by adjusting the hydrothermal time. At a suitable zeolite shell thickness, the long-chain hydrocarbons were cracked completely, with high FTS activity, leading to high selectivity for the gasoline fraction. Increasing the reaction temperature resulted in higher FTS and cracking activities, but the product distribution shifted to short-chain hydrocarbons. For the optimum skeletal Co@HZSM-5 core-shell catalyst, which was subjected to hydrothermal treatment for 4 d, selectivity for the gasoline fraction reached 79% at 250 ℃, which shows an excellent synergistic effect between the FTS active sites and the acidic sites on this catalyst.  相似文献   

14.
分别采用一步合成法和常规共沉淀法制备了Fe/SiO2催化剂,通过N2物理吸附、X射线衍射、透射电镜、傅里叶变换红外光谱和程序升温还原等方法对催化剂进行了表征,并在固定床反应器中对其费托合成制低碳烯烃的催化性能进行了评价。结果表明,与共沉淀铁基催化剂不同,采用一步合成法制备的纳米复合物主要由Fe3O4相构成,形貌呈规则球形,平均粒径为30 nm,尺寸分布窄,更容易还原。一步合成法制得的Fe/SiO2催化剂对费托合成反应具有较高的活性和低碳烯烃选择性、较低的甲烷选择性和良好的稳定性。  相似文献   

15.
The influence of reaction pressure, temperature, space velocity (GHSV), particle size of catalyst and H2/CO ratio of feed-gas on the steady-state product distribution, conversion of CO, H2 and syngas, olefin to paraffin ratio and CO2/ H2O ratio for FTS reaction were investigated using a coprecipitated copper- potassium promoted iron catalyst. The test was carried out in a fixed-bed reactor. Increasing the reaction temperature from 493. 2 to 5-13. 2 K shifted the hydrocarbon distribution toward the heavier hydrocarbons (C5-C23) and selectively increased CO conversion to CO2. The hydrocarbon distribution was found to be dependent on the H2/CO feed-gas ratio in the range from 1.23 to 2. 22. The CO2/H2O ratio in product decreased as the flow of feed-gas rate increased, which suggests that H2O is a primary product and its reaction with CO to form CO2 occurs via a secondary process. The CO conversion increased with the decrease of catalyst particle size from 10 to 60 mesh (2. 0- 0. 3 mm), while the CO convers  相似文献   

16.
王维佳  李金林  罗明生 《催化学报》2007,28(10):925-930
用共沉淀法制备了一系列不同硅含量的铁基催化剂,采用N2吸附和原位X射线衍射对催化剂进行了表征,在固定床反应器中考察了催化剂的费-托合成反应活性、选择性和稳定性.结果表明,含硅的催化剂具有较大的比表面积和较小的平均孔径,在CO还原及费-托合成反应中生成的碳化铁物种的稳定性比不含硅的催化剂高.在费-托合成反应中,不含硅的催化剂具有较高的初始活性,但易失活;含硅的催化剂具有较低的初始活性,但稳定性较高.Fe7C3是活性最高的碳化铁物种.随着硅含量的增加,催化剂的费-托合成反应更易生成低碳数产物.  相似文献   

17.
The present paper represents the promising ways to improve catalytic performance by introducing zirconium phosphate (ZP) on Ru/Co/SiO2 catalysts and the related kinetic models using the optimized Fischer?CTropsch synthesis (FTS) catalyst. A lot of works has been reported using cobalt-based catalyst for FTS reaction, and many authors have continuously tried to find out highly efficient FTS catalyst by modifying support as well as by introducing promoters. Silica is one of the excellent candidates as catalytic supports, and the present works intensively represents how to modify SiO2 support for a high catalytic performance by using ZP species. The effect of ZP-modification of SiO2 support with respect to cobalt aggregation and catalytic deactivation was mainly investigated for FTS reaction. The surface modification at P/(Zr?+?P) molar ratio between 0.029 and 0.134, enhanced the spatial confinement effect of cobalt clusters, and resulted in high catalytic stability with the help of well-dispersed ZP particle formation. The enhanced catalytic performance, in terms of CO conversion, C5+ selectivity and catalytic stability, is mainly attributed to the suppressed aggregation, a homogeneous distribution of cobalt clusters with a proper size and a low mobility of cobalt clusters at an optimum molar ratio of P/(Zr?+?P) because of the formation of thermally stable ZP particles. The kinetic parameters and rate equations on the optimized catalyst are also derived in terms of CO conversion and product distribution.  相似文献   

18.
低温高活性熔铁催化剂上的超临界相费托合成反应   总被引:1,自引:0,他引:1  
在固定床反应器中超临界相条件下研究了熔铁催化剂上的费托合成反应,发现在超临界介质中反应物和产物更容易扩散,较好地抑制了催化剂表面非活性碳的沉积,从而提高了费托合成反应中的CO转化率和烯烃选择性,增加了链增长因子,降低了甲烷选择性.同时,考察了超临界介质、反应温度、压力、H2/CO比和空速等条件对费托合成反应的影响.结果表明,C5-8正构烷烃在催化剂活性温度下都是适宜的超临界介质.当温度和压力都在介质的临界点以上时,介质表现出较好的传质与传热性能,可改善费托合成反应性能.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号