通过实验研究和原子模型分析了一种新型催化裂化系统的流动分布

A. I. Siswantara, M. Syafei, M. A. Budiyanto, C. D. Widiawaty, Adi Syuriadi, T. A. Farhan, S. Permana
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引用次数: 1

摘要

作为世界上最大的棕榈油生产国,印度尼西亚具有通过流体催化裂化(FCC)工艺生产绿色燃料的巨大潜力。一种新型的FCC配置,FCC Proto x3,在系统中结合了一个提升反应器和一个下行反应器。然而,包括FCC系统在内的几个阀门对于系统中的流量分布仍然是一个黑匣子。本文的目的是研究阀门设置变化对催化裂化系统气流分布的影响。方法采用实验和因果模型。研究了阀门设置变化对气流压力和平均流速的影响。实验是在冷试验条件下进行的,而FCC系统的因果模型是使用OpenModelica建立的。结果表明,控制通道流向蓄热器的阀2是必不可少的,因为它在控制蓄热器内的送风燃烧过程和将废催化剂颗粒驱动到蓄热器中起着重要作用。阀门3负责直接控制流向立管反应堆的流量。随后,它负责提供提升液,以支持立管段的催化裂化反应。阀门4用于控制进入下行反应堆的提升流体。它还将负责从高温颗粒催化剂向反应器提供热能。当所有通向蓄热器和反应器的阀门100%打开时,在烟气出口和产品出口测得的平均速度分别为8.04 m/s和5.775 m/s。结果表明,催化裂化系统内气流有向蓄热器流动的趋势。原子模型估计也显示出与实验结果相似的趋势
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Flow distribution analysis of a novel fcc system through experiment study and atomic model
As the largest palm oil producer in the world, Indonesia has a promising potential to produce green fuel through the Fluid Catalytic Cracking (FCC) process. A novel FCC configuration, FCC Proto X 3, which combines a riser reactor and downer reactor in the system, has been developed. However, several valves including in the FCC system remain a black box to the flow distribution in the system. The objective of this paper is to investigate the effect of the valve setting variation on the airflow distribution of the FCC system. The methodology uses experiment and acausal modeling. The effect of valve setting variation on pressure and average velocity of the airflow has been investigated. The experiment is conducted under cold test conditions, while the acausal model of the FCC system is built by using OpenModelica. It is obtained that valve 2 which controls the flow at the channel toward the regenerator is essential due to its role in controlling the air supply combustion process in the regenerator and driving the spent catalyst particles to the regenerator. Valve 3 is responsible for controlling the flow toward the riser reactor directly. Later, it is responsible for supplying the lifting fluid to support the catalytic cracking reaction at the riser sections. Valve 4 contributes to controlling the lifting fluid to the downer reactor. It will also be responsible for supplying thermal energy from the high-temperature particle catalyst to the reactor. When all valves toward the regenerator and reactor are 100 % open, the measured average velocity at the flue gas outlet and the product outlet are 8.04 m/s and 5.775 m/s respectively. The result shows that the airflow at the FCC system tends to flow through the regenerator. The atomic model estimation also shows a similar trend to the experiment result
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来源期刊
EUREKA: Physics and Engineering
EUREKA: Physics and Engineering Engineering-Engineering (all)
CiteScore
1.90
自引率
0.00%
发文量
78
审稿时长
12 weeks
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