A Two-Zone Model for Fluid Catalytic Cracking Riser with Multiple Feed Injectors

He Pengfei; Zhu Chao; Ho Teh C.

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A Two-Zone Model for Fluid Catalytic Cracking Riser with Multiple Feed Injectors

机译：多进料器的流体催化裂化提升管的两区模型

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Developments in modeling of the fluid catalytic cracking (FCC) process have progressed along two lines. One emphasizes composition-based kinetic models based on molecular characterization of feedstocks and reaction products. The other relies on computational fluid dynamics. The aim is to develop an FCC model that strikes a balance between the two approaches. Specifically, we present an FCC riser model consisting of an entrance-zone and a fully developed zone. The former has four overlapping, fan-shaped oil sprays. The model predicts the plant data of Derouin et al. and reveals an inherent two-zone character of the FCC riser. Inside the entrance zone, cracking intensity is highest and changes rapidly, resulting in a steep rise in oil conversion. Outside the entrance zone, cracking intensity is low and varies slowly, leading to a sluggish increase in conversion. The two-zone model provides a computationally efficient modeling approach for FCC online control, optimization, and molecular management. (c) 2014 American Institute of Chemical Engineers AIChE J, 61: 610-619, 2015

机译：流化催化裂化（FCC）过程建模的开发已沿着两条方向发展。一种强调基于原料和反应产物的分子表征的基于组成的动力学模型。其他依赖于计算流体动力学。目的是开发一种在两种方法之间取得平衡的FCC模型。具体来说，我们提出了一个FCC立管模型，该模型由入口区和充分发育的区组成。前者有四个重叠的扇形喷油嘴。该模型可预测Derouin等人的工厂数据。并揭示了FCC立管的固有两区特征。在入口区内，裂化强度最高，变化迅速，导致油转化率急剧上升。在入口区域之外，开裂强度低且变化缓慢，导致转化率缓慢上升。两区模型为FCC在线控制，优化和分子管理提供了一种计算有效的建模方法。（c）2014美国化学工程师学会AIChE J，61：610-619，2015

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《AIChE Journal》 |2015年第2期|共10页
作者
He Pengfei; Zhu Chao; Ho Teh C.;
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正文语种 eng
中图分类化学工业;
关键词
FCC process model; two-zone FCC model; fan-shaped FCC nozzles; composition-based models; modeling of FCC feed injection;

机译：FCC过程模型;两区FCC模型;扇形FCC喷嘴;基于成分的模型;FCC进料的建模;
入库时间 2022-08-18 09:58:09

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1. A Two-Zone Model for Fluid Catalytic Cracking Riser with Multiple Feed Injectors [J] . He Pengfei, Zhu Chao, Ho Teh C. AIChE Journal . 2015,第2期

机译：多进料器的流体催化裂化提升管的两区模型
2. Model for the performance of fluid catalytic cracking (FCC) riser reactor: effect of feed atomization [J] . Ajay Gupta, D. Subba Rao Chemical Engineering Science . 2001,第15期

机译：流化催化裂化（FCC）提升管反应器性能模型：进料雾化的影响
3. Prediction of gasoline yield in a fluid catalytic cracking (FCC) riser using k-epsilon turbulence and 4-lump kinetic models: A computational fluid dynamics (CFD) approach [J] . Muhammad Ahsan Journal of King Saud University-Engineering Sciences . 2015,第2期

机译：使用Kε湍流和4块动力学模型预测流化催化裂化（FCC）立管中的汽油收率：计算流体动力学（CFD）方法
4. A NOVEL NON-INTRUSIVE PROBE OF PARTICLE MOTION AND GAS GENERATION IN THE FEED INJECTION ZONE OF THE FEED RISER OF A FLUIDIZED BED CATALYTIC CRACKING UNIT [C] . G. D. Cody, R J. Bellows, D. J. Goldfarb, 7th International Conference on Circulating Fluidized Beds; May 5-8, 2002; Niagara Falls, Ontario, Canada . 2002

机译：流化床催化裂化装置进料口进料区的颗粒运动和气体生成的新型非侵入式探究
5. Modeling circulating fluidized bed riser and downer reactors and their application to fluid catalytic cracking. [D] . Bolkan, Yasemin Gulay. 2003

机译：模拟循环流化床提升管和下降管反应器及其在流化催化裂化中的应用。
6. Multifunctional two-stage riser fluid catalytic cracking process [O] . Jinhong Zhang, Honghong Shan, Xiaobo Chen, -1

机译：多功能两级立管流化催化裂化工艺
7. Prediction of gasoline yield in a fluid catalytic cracking (FCC) riser using k-epsilon turbulence and 4-lump kinetic models: A computational fluid dynamics (CFD) approach [O] . Muhammad Ahsan 2015

机译：使用k-epsilon湍流和4块动力学模型预测流化催化裂化（FCC）提升管中的汽油产率：计算流体动力学（CFD）方法

A Two-Zone Model for Fluid Catalytic Cracking Riser with Multiple Feed Injectors

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