Optimization simulation of flue gas pretreatment system for coal-fired power plant CO2 capture

doi:10.16085/j.issn.1000-6613.2015.02.043

Chemical Industry and Engineering Progree ›› 2015, Vol. 34 ›› Issue (02): 571-575.DOI: 10.16085/j.issn.1000-6613.2015.02.043

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Optimization simulation of flue gas pretreatment system for coal-fired power plant CO₂ capture

LÜ Tai¹, LIU Limeng¹, GUO Dongfang², NIU Hongwei², SHANG Hang²

1. School of Energy and Power Engineering, Northeast Dianli University, Jilin 132001, Jilin, China;
2. China Huaneng Clean Energy Research Institute, Beijing 102209, China

Received:2014-06-26 Revised:2014-08-24 Online:2015-02-05 Published:2015-02-05

燃煤电厂CO₂捕集中烟气预处理系统的优化模拟

吕太¹, 刘力萌¹, 郭东方², 牛红伟², 尚航²

1. 东北电力大学能源与动力工程学院, 吉林吉林 132001;
2. 中国华能集团清洁能源技术研究院有限公司, 北京 102209

通讯作者: 吕太(1957-),男,教授,主要从事电力环境保护研究方面。E-mail:lutai@mail.nedu.edu.cn

Abstract

Abstract: In coal-fired power plant CO₂ capture, in order to improve capture efficiency, flue gas pretreatment is required. In order to further improve flue gas quality at pretreatment outlet, Aspen Plus simulation was used to optimize flue gas pretreatment to study combination packing, packing layer height, absorbent quantity, and absorbent placed in separated layers,and investigate their influence on content of SO₂ at outlet, desulfurization efficiency and flue gas outlet temperature to determine the optimal process conditions. Adding different kinds of combination packing, different models of combination packing and absorbent placed in separated layers increased desulfurization efficiency and reduced flue gas pretreatment ioutlet temperature. With the increase of packing layer height and quantity of absorbent, flue gas temperature and content of SO₂ at flue gas pretreatment outlet decreased. Optimal packing layer height was 2-4m,and optimal absorbent quantity was (250-350)×10³kg/h.

Key words: flue gas pretreatment, simulation, optimization, SO₂ removal, flue gas cooling

摘要： 在燃煤电厂CO₂捕集中,为了提高其捕集效率,需对进入系统的烟气进行预处理。为进一步提高进入系统烟气的质量,本文用Aspen Plus模拟优化烟气预处理系统,通过研究在预洗塔中组合填料、填料层高度、吸收剂进量和分层进吸收剂对出口烟气中SO₂的含量、脱硫效率以及出口烟气温度的影响,得出最佳的工艺条件。模拟结果表明,加入不同种类组合填料,同种类不同型号组合填料和分层进吸收剂都使烟气脱硫效率增加,出口烟气温度降低;随着填料层高度和吸收剂进量的增加,出口烟气中SO₂的含量和出口烟气温度降低,其中最佳的高度为2~4m,最佳的吸收剂进量为(250~350)×10³kg/h。

关键词: 烟气预处理, 模拟, 优化, SO₂脱除, 烟气降温

CLC Number:

X701.3
TK09

LÜ Tai, LIU Limeng, GUO Dongfang, NIU Hongwei, SHANG Hang. Optimization simulation of flue gas pretreatment system for coal-fired power plant CO₂ capture[J]. Chemical Industry and Engineering Progree, 2015, 34(02): 571-575.

吕太, 刘力萌, 郭东方, 牛红伟, 尚航. 燃煤电厂CO₂捕集中烟气预处理系统的优化模拟[J]. 化工进展, 2015, 34(02): 571-575.

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Optimization simulation of flue gas pretreatment system for coal-fired power plant CO₂ capture

燃煤电厂CO₂捕集中烟气预处理系统的优化模拟

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