Abstract
Submarine pipelines have been extensively used for marine oil and gas extraction due to their high efficiency, safety, and low price. However, submarine pipelines are vulnerable to extreme waves (i.e., tsunami waves). Previous research has often used solitary waves as a basis for studying the impacts of tsunami waves on submarine pipelines, although the hydrodynamic characteristics and wave properties drastically differ from those of real-world tsunami waves. This paper numerically investigates the hydrodynamic characteristics of tsunami waves interacting with submarine pipelines, but instead uses an improved wave model to generate a tsunami-like wave that more closely resembles those encountered in the real-world. The tsunami-like wave generated based on a real-world tsunami wave profile recorded during a 2011 tsunami in Japan has been applied. Given the same wave height, simulation results show that peak hydrodynamic forces of the tsunami-like wave are greater than those of the solitary wave. Meanwhile, the duration of the acting force under the tsunami-like wave is much longer than that of the solitary wave. These findings underline the basic reasons for the destructive power of tsunamis. It is also noted that the hydrodynamic forces of the pipeline under the tsunami-like wave increase with wave height, but will decrease as water depth increases. In addition to the single pipeline, the complicated hydrodynamic characteristics of pipelines in tandem arrangement have been also numerically studied. It is believed that the findings drawn from this paper can enhance our understanding of the induced forces on submarine pipelines under extreme tsunami waves.
Highlights
Submarine pipelines have been widely used for marine oil and gas extraction owing to their high efficiency, safety, and low price
This paper numerically investigates the hydrodynamic characteristics of submarine pipelines impacted by tsunami waves using the real-world tsunami wave profile recorded at Iwate South station during Tohoku
The hydrodynamic characteristics of submarine pipelines impacted by the tsunami-like wave are systematically investigated
Summary
Submarine pipelines have been widely used for marine oil and gas extraction owing to their high efficiency, safety, and low price. Francesco et al [17] carried out the experimental and numerical investigations about the horizontal and vertical hydrodynamic forces induced by solitary waves on a horizontal circular cylinder placed on the half water depth. The results showed that the bores introduced a short-duration impulsive horizontal force at the instant that the wave impacted the offshore girder, which always maximized the total horizontal force, followed by a force with smaller magnitude and longer duration as the wave flooded the chambers of the deck This was not the case for solitary waves. This paper numerically investigates the hydrodynamic characteristics of submarine pipelines impacted by tsunami waves using the real-world tsunami wave profile recorded at Iwate South station during Tohoku. The paper is organized as follows: Section 2 describes governing equations and numerical methods; Section 3 describes the model validation; Section 4 presents the results and discussions; Section 5 summarizes the findings
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