Department of Applied Ocean Physics and Engineering, Woods Hole Oceanographic Institution, Woods Hole, MA 02543, USA.
Proc Natl Acad Sci U S A. 2012 Dec 11;109(50):20235-9. doi: 10.1073/pnas.1100385108. Epub 2011 Sep 8.
On May 31, 2010, a direct acoustic measurement method was used to quantify fluid leakage rate from the Deepwater Horizon Macondo well prior to removal of its broken riser. This method utilized an acoustic imaging sonar and acoustic Doppler sonar operating onboard a remotely operated vehicle for noncontact measurement of flow cross-section and velocity from the well's two leak sites. Over 2,500 sonar cross-sections and over 85,000 Doppler velocity measurements were recorded during the acquisition process. These data were then applied to turbulent jet and plume flow models to account for entrained water and calculate a combined hydrocarbon flow rate from the two leak sites at seafloor conditions. Based on the chemical composition of end-member samples collected from within the well, this bulk volumetric rate was then normalized to account for contributions from gases and condensates at initial leak source conditions. Results from this investigation indicate that on May 31, 2010, the well's oil flow rate was approximately 0.10 ± 0.017 m(3) s(-1) at seafloor conditions, or approximately 85 ± 15 kg s(-1) (7.4 ± 1.3 Gg d(-1)), equivalent to approximately 57,000 ± 9,800 barrels of oil per day at surface conditions. End-member chemical composition indicates that this oil release rate was accompanied by approximately an additional 24 ± 4.2 kg s(-1) (2.1 ± 0.37 Gg d(-1)) of natural gas (methane through pentanes), yielding a total hydrocarbon release rate of 110 ± 19 kg s(-1) (9.5 ± 1.6 Gg d(-1)).
2010 年 5 月 31 日,在拆除深水地平线马孔多井(Macondo well)破损的立管之前,使用直接声学测量方法来量化来自该井的流体泄漏率。该方法利用声学成像声纳和声学多普勒声纳,通过遥控潜水器进行非接触式测量,从两个泄漏点获取流量横截面积和速度。在采集过程中记录了超过 2500 个声纳横截面和超过 85000 个多普勒速度测量值。然后将这些数据应用于湍流射流和羽流流动模型,以考虑夹带的水,并计算海底条件下两个泄漏点的组合碳氢化合物流量。根据从井内采集的端元样本的化学成分,将这个总体积流量归一化,以考虑初始泄漏源条件下气体和凝析物的贡献。该调查结果表明,2010 年 5 月 31 日,该井在海底条件下的石油流量约为 0.10±0.017 m3 s-1,或约 85±15 kg s-1(7.4±1.3 Gg d-1),相当于表面条件下每天约 57000±9800 桶石油。端元化学成分表明,这种石油释放速率伴随着约 24±4.2 kg s-1(2.1±0.37 Gg d-1)的额外天然气(甲烷到戊烷),总碳氢化合物释放速率为 110±19 kg s-1(9.5±1.6 Gg d-1)。