Application of a Fluidized Bed Reactor in the MTO (Methanol to Olefin) Process: Preparation of Catalyst and Presentation of a Kinetic Model

N. FATOUREHCHI; M. SOHRABI; S. J. ROYAEE

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Application of a Fluidized Bed Reactor in the MTO (Methanol to Olefin) Process: Preparation of Catalyst and Presentation of a Kinetic Model

机译：流化床反应器在MTO（甲醇制烯烃）工艺中的应用：催化剂的制备和动力学模型的表示

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Light olefins are basic raw materials for petrochemical industries and the global demand for the latter is growing. The authors investigated the conversion of methanol to light olefins in presence of acidic SAPO-34 molecular sieve as the reaction catalyst. SAPO-34 was synthesized by hydrothermal method, applying morpholine as the template. The molecular sieve was then changed into protonated form by ion exchange process with ammonium chloride at 80° C. A kinetic study was carried out within the temperature range of 375-425°C and 4 bar pressure using a differential fixed bed reactor. An appropriate kinetic model was presented and the kinetic parameters were evaluated as functions of temperature. In addition, the formation of light olefins was implemented in a fluidized bed reactor under a wide range of operating conditions. The experimental results were correlated with those predicted from a hydrodynamic model. Taguchi's experimental design method was applied to determine the optimum operating parameters of this process conducted in the fluidized bed reactor. The optimized parameters were the following: temperature = 425°C; ratio of inlet gas velocity to minimum fluidizing velocity (U_0/U_(mf)) = 7; catalyst mean particle size = 240 μm.

机译：轻烯烃是石化行业的基本原料，全球对后者的需求正在增长。作者研究了在酸性SAPO-34分子筛作为反应催化剂的情况下将甲醇转化为轻质烯烃的方法。以吗啉为模板，水热法合成SAPO-34。然后在80℃下通过与氯化铵的离子交换过程将分子筛变成质子化形式。使用差动固定床反应器在375-425°C的温度范围和4 bar的压力下进行了动力学研究。提出了合适的动力学模型，并对动力学参数作为温度的函数进行了评估。另外，在宽范围的操作条件下，在流化床反应器中实施了轻烯烃的形成。实验结果与流体力学模型预测的结果相关。 Taguchi的实验设计方法用于确定在流化床反应器中进行的该过程的最佳操作参数。优化的参数如下：温度= 425°C;进气速度与最小流化速度之比（U_0 / U_（mf））= 7;催化剂平均粒径＝240μm。

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《Petroleum Science and Technology》 |2011年第16期|共12页
作者
N. FATOUREHCHI; M. SOHRABI; S. J. ROYAEE;
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正文语种 eng
中图分类石油、天然气加工工业;
关键词
catalytic reaction; fluidized-bed reactor; kinetic model; methanol to olefin (MTO); SAPO-34; Taguchi analysis;

机译：催化反应;流化床反应器;动力学模型;甲醇制烯烃（MTO）;SAPO-34;田口分析;

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1. Application of a Fluidized Bed Reactor in the MTO (Methanol to Olefin) Process: Preparation of Catalyst and Presentation of a Kinetic Model [J] . N. Fatourehchia M. Sohrabia S. J. Royaeeab amp, S. M. Mirarefina Petroleum Science and Technology . 2011,第15期

机译：流化床反应器在MTO（甲醇制烯烃）工艺中的应用：催化剂的制备和动力学模型的表示
2. Preparation of SAPO-34 catalyst and presentation of a kinetic model for methanol to olefin process (MTO) [J] . Niloufar Fatourehchi, Morteza Sohrabi, S. Javid Royaee Chemical Engineering Research & Design: Transactions of the Institution of Chemical Engineers . 2011,第6期

机译：SAPO-34催化剂的制备和甲醇制烯烃工艺的动力学模型（MTO）
3. Modeling of methanol to olefins (MTO) process in a circulating fluidized bed reactor [J] . S.Soundararajan, A.K.Dalai, F.Berruti Fuel . 2001,第8期

机译：循环流化床反应器中甲醇制烯烃的模型（MTO）
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机译：流化床反应器中甲醇制烯烃（MTO）过程的运动学研究。
5. Methanol-to-olefins in a fluidized bed: Experimental and modelling study. [D] . Kaarsholm, Mads. 2009

机译：流化床中的甲醇制烯烃：实验和模型研究。
6. Scalable preparation of silCoat‐biocatalysts by use of a fluidized‐bed reactor [O] . René Nieguth, Lars O. Wiemann, Marrit Eckstein, 2017

机译：使用流化床反应器可扩展地制备silCoat生物催化剂
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机译：动力学理论的应用。循环流化床燃烧室预测模型：第十次技术进步报告

Application of a Fluidized Bed Reactor in the MTO (Methanol to Olefin) Process: Preparation of Catalyst and Presentation of a Kinetic Model

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