Quan Zhang , Bin Qin , Naijun Zhou , Jingwen Lin , Jiaxu Hao , Zhaijun Lu
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引用次数: 0
Abstract
Accidental leakage is one of the major safety issues in the carbon capture and storage project (CCS), which may pose a significant danger to pipelines, containers and surrounding crowd. It is necessary to study the leakage behavior of high−pressure CO2, providing data support for the risk assessment of CO2 leakage. In this paper, the accidental leakage of high−pressure CO2 is simulated by releasing CO2 from a storage tank, aiming to understand the transient characteristics and thermal stratification inside the tank of CO2 leakage process. The initial CO2 is at different initial density of 600∼1000 kg/m3 and at almost the same initial pressure of 10.8 ± 0.4 MPa. Firstly, the outlet transient characteristics and temperature evolution inside the tank are presented. Then, the variation of P−T curves and phase evolution are analyzed in detail. Finally, the leakage behavior under different initial density is described. The results show that the leakage process can be clearly divided into three stages based on the outlet pressure. The outlet pressure evolution, phase evolution and temperature distribution inside the tank are very different in these three stages. This research is of great significance for leakage risk prediction, early leakage detection and leakage hazard control.
意外泄漏是碳捕集与封存项目(CCS)的主要安全问题之一,可能对管道、容器和周围人群造成重大危害。有必要研究高压二氧化碳的泄漏行为,为二氧化碳泄漏风险评估提供数据支持。本文通过从储罐中释放 CO2 来模拟高压 CO2 的意外泄漏,旨在了解 CO2 泄漏过程的瞬态特征和罐内热分层。初始 CO2 的初始密度为 600∼1000 kg/m3,初始压力几乎相同,均为 10.8 ± 0.4 MPa。首先,介绍了罐内的出口瞬态特征和温度变化。然后,详细分析了 P-T 曲线的变化和相变。最后,描述了不同初始密度下的泄漏行为。结果表明,根据出口压力,泄漏过程可清晰地分为三个阶段。在这三个阶段中,出口压力演变、相演变和罐内温度分布都有很大不同。这项研究对于泄漏风险预测、早期泄漏检测和泄漏危害控制具有重要意义。
期刊介绍:
Energy is a multidisciplinary, international journal that publishes research and analysis in the field of energy engineering. Our aim is to become a leading peer-reviewed platform and a trusted source of information for energy-related topics.
The journal covers a range of areas including mechanical engineering, thermal sciences, and energy analysis. We are particularly interested in research on energy modelling, prediction, integrated energy systems, planning, and management.
Additionally, we welcome papers on energy conservation, efficiency, biomass and bioenergy, renewable energy, electricity supply and demand, energy storage, buildings, and economic and policy issues. These topics should align with our broader multidisciplinary focus.