Numerical simulation of impurity-containing supercritical CO2 pipeline transport in CCUS

IF 4.6 3区工程技术 Q2 ENERGY & FUELS

International Journal of Greenhouse Gas Control Pub Date : 2024-09-04 DOI:10.1016/j.ijggc.2024.104236

Jianxin Lu , Qihui Hu , Duihong Zhang , Feng Yan , Yuxing Li , Chaofei Nie

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引用次数: 0

Abstract

CO₂ pipelines in CCUS frequently operate under unstable conditions due to transient factors, such as fluctuations in gas flow at the pipeline's starting and ending points. In this study, a one-dimensional transient flow model of CO₂ pipeline containing impurities is proposed, which is capable of coupling the hydraulic and thermal factors in the flow process to achieve the hydraulic calculation along the pipeline in the slow transient process. The engineering simulation software OLGA is used to test and verify the model, the result of which shows the model produces comparable calculation results with improved computational stability. The model is used to investigate the effects of the slow transient conditions and three capture methods on the pipeline, and the results show that: (1) the fluctuations in the outlet flow have different effects along the pipeline., (2) the existence of the gas distributing and gathering points has different effects on the upstream and downstream, (3) there is a big difference in the content and type of impurities under the different capture methods, which greatly affects the CO₂ pipeline operation under the slow transient conditions.

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含杂质超临界二氧化碳管道在 CCUS 中输送的数值模拟

由于瞬态因素，如管道起点和终点的气体流量波动，CCUS 中的 CO2 管道经常在不稳定的条件下运行。本研究提出了含杂质 CO2 管道的一维瞬态流动模型，该模型能够耦合流动过程中的水力和热力因素，实现管道在缓慢瞬态过程中的水力计算。使用工程仿真软件 OLGA 对模型进行了测试和验证，结果表明该模型能产生可比的计算结果，并提高了计算稳定性。利用该模型研究了慢速瞬态条件和三种捕获方法对管道的影响，结果表明：(1) 出口流量的波动对管道沿线的影响不同；(2) 配气点和集气点的存在对上下游的影响不同；(3) 不同捕集方式下杂质的含量和种类差异较大，这对慢瞬态工况下 CO2 管道的运行影响很大。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Greenhouse Gas Control 环境科学-工程：环境

CiteScore

9.20

自引率

10.30%

发文量

199

审稿时长

4.8 months

期刊介绍： The International Journal of Greenhouse Gas Control is a peer reviewed journal focusing on scientific and engineering developments in greenhouse gas control through capture and storage at large stationary emitters in the power sector and in other major resource, manufacturing and production industries. The Journal covers all greenhouse gas emissions within the power and industrial sectors, and comprises both technical and non-technical related literature in one volume. Original research, review and comments papers are included.