In this paper we have predicted the dynamics of double plume formation and dispersion from direct injection of liquid CO2 into middle-depth ocean water. To do so, we used a three-dimensional, two-fluid numerical model. The model consists of a CO2 droplet submodel and a small-scale turbulent ocean submodel, both of which were calibrated against field observation data. With an injection rate of 100 kg s-1 CO2, numerical simulations indicated that the injection of 8-mm-diameter CO2 droplets from fixed ports at 858 m (20 m above the seafloor) into a current flowing at 2.5 cm s-1 could create a plume that reaches the bottom and has at most a 2.6-unit decrease in pH. The strong interaction between the buoyant rise of the liquid CO2 and the fall of the CO2-enriched water produced a vertically wavy plume tip at about 190 m above the seafloor. The maximum pH decrease, however, was kept to 1.7 units when the liquid CO2 had an initial droplet diameter of 20 mm and it was injected at 1500 m from a towed pipe with a ship speed of 3.0 m s-1. After 70 min the double plume developed into a single-phase passive plume with a vertical scale of 450 m and a horizontal scale larger than 150 m. This development was attributable to the droplets' buoyant rise and dissolution, along with ocean turbulence, which together diluted the plume and reduced the decrease in pH to less than 0.5 units.
展开▼
机译:在本文中,我们预测了将液态二氧化碳直接注入中深度海洋水中时,双羽形成和扩散的动力学。为此,我们使用了三维双流体数值模型。该模型由一个CO2液滴子模型和一个小规模湍流海洋子模型组成,这两个子模型均根据现场观测数据进行了校准。在注入速率为100 kg s-1 CO2的情况下,数值模拟表明,将直径为8 mm的CO2液滴从858 m(距海床以上20 m)的固定端口注入流经2.5 cm s-1的电流中产生到达底部的羽状物,pH值最多降低2.6个单位。液态CO2的浮力上升与富含CO2的水的下降之间的强烈相互作用在海底上方190 m处产生了垂直波浪状的羽状尖端。但是,当液态CO2的初始液滴直径为20 mm时,最大pH降低保持在1.7个单位,并以1500 m的船速从拖曳的管道中以3.0 m s-1的速度注入。 70分钟后,双羽流发展成为单相被动羽流,其垂直尺度为450 m,水平尺度大于150 m。这种发展归因于液滴的浮力上升和溶解,以及海洋湍流,它们共同稀释了羽流并将pH值的降低降低到小于0.5个单位。
展开▼
