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Analysis of Fluid–Structure Coupling Vibration Mechanism for Subsea Tree Pipeline Combined with Fluent and Ansys Workbench

Gongxing Wu, Xiaolong Zhao, Danda Shi, Xiaodong Wu

2021Water15 citationsDOIOpen Access PDF

Abstract

In the process of oil exploitation, subseatrees sometimes vibrate. In this paper, fluid–structure coupling software was used to study the causes of subsea tree vibration. First, the complex subsea tree model was simplified, and ageometric grid model was established for software calculation. Then, under the given two working conditions, the software Fluent was used to analyze the pressure and velocity distribution of the subsea tree pipeline’s flow field. It was found that the pressure of the flow field changed greatly at the variable diameter and right-angles. Using Ansys Workbench software, flow-structure coupling calculations and modal analysis of the subsea tree were carried out. The results showed that the vibration of the long straight pipeline section was severe. Finally, the paper puts forward the measures to reduce the vibration of subsea tree pipelines and provides construction advice for the safe production of subsea trees.

Topics & Concepts

SubseaWorkbenchFluentVibrationEngineeringStructural engineeringCoupling (piping)SoftwareComputational fluid dynamicsMarine engineeringComputer scienceMechanical engineeringPhysicsAcousticsAerospace engineeringVisualizationProgramming languageVibration and Dynamic AnalysisOffshore Engineering and TechnologiesGeotechnical Engineering and Underground Structures
Analysis of Fluid–Structure Coupling Vibration Mechanism for Subsea Tree Pipeline Combined with Fluent and Ansys Workbench | Litcius