Journal
PROCESS SAFETY AND ENVIRONMENTAL PROTECTION
Volume 134, Issue -, Pages 239-246Publisher
ELSEVIER
DOI: 10.1016/j.psep.2019.12.019
Keywords
LNG leakage underwater; Flow rate and pressure; Flame length; Tilt angle; Crosswinds
Categories
Funding
- National Key R&D Program of China [2017YFC0805800]
- Shandong Provincial Key RD Program [2017GSF220007]
- Fundamental Research Funds for the Central Universities [19CX02036A]
- [YCX2018068]
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Liquefied natural gas (LNG) trade has increased globally; therefore, assessments of the hazards of its accidental release and associated consequences must be conducted to ensure LNG security during marine transportation. This study aims to understand the dynamic behavior occurring when an LNG jet is released underwater and the combustion behavior of a flammable vapor cloud on the water's surface with airflows from 0 to 4 m/s. A series of controlled LNG vertical jet release experiments were conducted using a cryogenic storage tank with three orifices. Various instruments were employed to measure the flow rate and pressure in pipelines during different leakage scenarios, and the emanating LNG vapor clouds were immediately ignited with the mass loss rate of 0.016, 0.037, and 0.049 kg/s in three orifices, respectively. The flame behavior was recorded by a video camera. With respect to flame length rapidly decreased with crosswinds of 0-2 m/s and then gradually decreased to a constant value with the velocities increase to 4 m/s. A dimensionless number of R-i was employed to analyze the relative magnitude between the buoyancy force and transverse flow. The flame tilt angle was found in accordance trend with flame length for first increased and further reach to become constant at R-i(-1) increase to 2. As existing correlations provide an overestimation, a new correlation was established to describe the flame length as a function of crosswind speed, and a good prediction was found for measured tilt angles with the correlated values. (C) 2019 Published by Elsevier B.V. on behalf of Institution of Chemical Engineers.
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