乙烷裂解炉的模拟分析

炼油技术与工程 ›› 2022, Vol. 52 ›› Issue (12): 41-44.

乙烷裂解炉的模拟分析

郑云栋¹, 杨松柏², 鲁浩然³, 祁小娟², 翟迎春², 闫飞²

1.北京圣金桥信息技术有限公司; 2.中国石油独山子石化公司塔里木石化分公司; 3.昆仑数智科技有限责任公司

收稿日期:2022-05-02 出版日期:2022-12-15 发布日期:2022-12-21
作者简介:郑云栋，高级工程师，硕士研究生，2009年毕业于青岛科技大学化学工艺专业，主要研究方向为流程模拟与仿真。联系电话：15210028336,E-mail:zhengyd-ds@petrochina.com.cn。

Simulation analysis of ethane cracking furnace

Zheng Yundong¹, Yang Songbai², Lu Haoran³, Qi Xiaojuan², Zhai Yingchun², Yan Fei²

1.Beijing Sunbridge Softtech Ltd.; 2.China Petroleum Dushanzi petrochemical Tarim petrochemical company; 3.Kunlun Digital Intelligence Technologies Co., Ltd.

Received:2022-05-02 Online:2022-12-15 Published:2022-12-21

摘要/Abstract

摘要：

利用SPYRO软件对乙烷裂解炉进行建模，用该模型模拟研究裂解温度、压力、稀释比、进料流量对乙烷转化率、反应选择性、产品收率和结焦速率的影响。经过模拟，裂解炉炉管出口温度从826℃提高至850℃时，乙烷的转化率从75.00%提高到83.70%,反应选择性从46.09%降低到44.01%;稀释比从0.30增加到0.38时，转化率从78.59%降低到78.16%,选择性从45.29%提高到45.45%。随着压力的提高，反应转化率逐渐提高，选择性逐渐降低。进料量增加后反应转化率降低，反应选择性略微提高。通过软件分析可以量化分析装置工艺条件变化的结果，从而寻找更优操作条件，达到提高乙烷裂解炉生产效益的目的。

关键词: 乙烷裂解炉, 出口温度, 稀释蒸汽比, 出口压力, 产品收率, 转化率, 反应选择性, 结焦速率

Abstract:

The ethane cracking furnace was simulated by SPYRO software, and the effects of cracking temperature, pressure, dilution ratio and feed flow rate on ethane conversion, ethane selectivity, product yield and coking rate were studied. Through this simulation, when the outlet temperature of cracking furnace tube is increased from 826 ℃ to 850 ℃, the ethane conversion increases from 75.00% to 83.70%, and the reaction selectivity decreases from 46.09% to 44.01%. When the dilution ratio increases from 0.30 to 0.38, the conversion decreases from 78.59% to 78.16%, and the selectivity increases from 45.29% to 45.45%. It is also found that with the increase of pressure, the reaction conversion increased and the selectivity decreased. With the increase of feed, the reaction conversion decreased and the reaction selectivity increased slightly. The results show that the process simulation can quantify the results of changes in process conditions of the unit, so as to find better operating conditions, and achieve the purpose of improving the production efficiency of the ethane cracking furnace.

Key words: ethane cracking furnace, outlet temperature, dilution steam ratio, outlet pressure, product yield, conversion rate, reaction selectivity, coking rate

郑云栋, 杨松柏, 鲁浩然, 祁小娟, 翟迎春, 闫飞 . 乙烷裂解炉的模拟分析 [J]. 炼油技术与工程, 2022, 52(12): 41-44.

Zheng Yundong, Yang Songbai, Lu Haoran, Qi Xiaojuan, Zhai Yingchun, Yan Fei . Simulation analysis of ethane cracking furnace[J]. Petroleum Refinery Engineering, 2022, 52(12): 41-44.

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