Bubble plume dispersion from underwater gas leakage: An experimental and dimensionless modelling study

IF 4.3 2区 工程技术 Q1 ENGINEERING, OCEAN
Qingyuan Wang , Long Ding , Zhenming Xue , Tao Chen , Xuhai Pan , Michael Short
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Abstract

The large-scale bubble plume and intense fountain effect induced by accidental subsea gas releases pose significant safety and environmental risks. This paper aims to experimentally investigate the effects of different leakage conditions on bubble plume dispersion dynamics and quantitatively study the fountain effect, with a focus on the maximum fountain height modelling and prediction. Typical underwater bubble plume dispersion and surface flow evolution were analysed, revealing their related dynamic features. It was found that there was a transition from bubble flow to jet flow with a decrease in nozzle diameter and an increase in leakage pressure in the establishment zone. Both leakage pressure and nozzle diameter could positively strengthen the connection between the frontal bubble cluster and the plume body to prevent rupture. Two surface flow modes dominated by buoyancy force and momentum drive were proposed, and the effects of different leakage conditions on the bubble plume's characteristic parameters, like rising time, steady propagation velocity, maximum plume diameter, open angle and fountain height were discussed. Finally, the correlation between the dimensionless maximum fountain height and Eu, Fr, ustr/d was established by dimensionless and multiple regression analysis. This predictive model exhibits strong generalisation ability that can provide support for potential risk assessment and quantification of underwater gas leakage accidents.
水下气体泄漏产生的气泡羽流扩散:实验和无量纲模型研究
海底气体意外泄漏引发的大规模气泡羽流和强烈的喷泉效应具有重大的安全和环境风险。本文旨在通过实验研究不同泄漏条件对气泡羽流扩散动力学的影响,并对喷泉效应进行定量研究,重点是最大喷泉高度的建模和预测。分析了典型的水下气泡羽流弥散和表面流动演变,揭示了其相关的动态特征。研究发现,随着喷嘴直径的减小和建立区泄漏压力的增加,气泡流向喷射流过渡。泄漏压力和喷嘴直径都能从正面加强正面气泡团与羽流体之间的连接,防止破裂。提出了以浮力和动量驱动为主的两种表面流动模式,并讨论了不同泄漏条件对气泡羽流特征参数的影响,如上升时间、稳定传播速度、最大羽流直径、开口角和喷泉高度等。最后,通过无量纲和多元回归分析,确定了无量纲最大喷泉高度与 Eu、Fr、ustr/d 之间的相关性。该预测模型具有很强的概括能力,可为水下气体泄漏事故的潜在风险评估和量化提供支持。
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来源期刊
Applied Ocean Research
Applied Ocean Research 地学-工程:大洋
CiteScore
8.70
自引率
7.00%
发文量
316
审稿时长
59 days
期刊介绍: The aim of Applied Ocean Research is to encourage the submission of papers that advance the state of knowledge in a range of topics relevant to ocean engineering.
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