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Testing device for simulating self-oscillation under mutual interference of two stand column models under uniform flow

A self-excited oscillation and mutual interference technology, applied in the field of marine engineering, can solve the problems of the actual structural performance of the limited model of the test device, the large scale effect, and the inability to simulate the riser more realistically, so as to speed up the test progress, stabilize the movement, and improve The effect of control precision

Active Publication Date: 2015-07-08
SHANGHAI JIAO TONG UNIV
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  • Abstract
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Problems solved by technology

[0006] Aiming at the problems in the above-mentioned prior art, the present invention provides a test device for simulating self-excited oscillation under the mutual interference of two standpipe models under uniform flow, aiming at combining model test and numerical simulation, through force measurement and high-bandwidth feedback , real-time numerical simulation of the motion characteristics of the riser with virtual structural parameters, to solve the problem that the existing test device is limited to the actual structural performance of the model, and can only carry out forced vibration with a predetermined period, the scale effect is large, and in short, it cannot be simulated more realistically Problem with risers in real sea state

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  • Testing device for simulating self-oscillation under mutual interference of two stand column models under uniform flow
  • Testing device for simulating self-oscillation under mutual interference of two stand column models under uniform flow
  • Testing device for simulating self-oscillation under mutual interference of two stand column models under uniform flow

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Embodiment Construction

[0031] The embodiments of the present invention are described in detail below: the present embodiment is implemented under the premise of the technical solution of the present invention, and detailed implementation and specific operation process are provided, but the protection scope of the present invention is not limited to the following implementation example.

[0032] The test device for simulating self-excited oscillation under mutual interference of two riser models under uniform flow provided by the present invention includes a first deep-sea riser module 1, a second deep-sea riser module 2, a first end prosthesis module 3, a second End prosthesis module 4, third end prosthesis module 5, fourth end prosthesis module 6, first vertical slide module 7, second vertical slide module 8, third vertical slide module 9, fourth vertical slide module 10, a first horizontal sliding module 11, a second horizontal sliding module 12 and a real-time control system module 13, wherein th...

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Abstract

The invention discloses a testing device for simulating self-oscillation under mutual interference of two stand column models under uniform flow. The testing device obtains velocity and stress of a cylinder body through measuring, obtains actual motion response signals under the effect of water flow by solving a motion equation of the cylinder body and exerts the actual motion signals onto the models through a servo motor to enable the models to move, so that self-oscillation motion is simulated. During test, a horizontally sliding module is used for simulating flow, and a vertically sliding module is used for simulating vortex-induced vibration in the vertical direction. The device sets parameters to simulate model structure performance, avoids messy testing operations in a traditional self-oscillation device, accelerates testing progress, provides large freedom degree to the model selection, simulates special working conditions of self-oscillation under mutual interference of two stand columns, adopts a large-scale stand column subsection to reduce scale effect, and adopts an end prosthesis device to solve the problem of model boundary effect.

Description

technical field [0001] The invention relates to the technical field of marine engineering, in particular to a test device for simulating self-excited oscillation under mutual interference of two standpipe models under uniform flow. Background technique [0002] The riser in the actual marine environment is a slender and flexible structure, which will generate vortex-induced vibration under the action of ocean currents. The structural fatigue or possible resonance caused by the vibration will pose a great threat to the safety of marine structures. [0003] The vortex-induced vibration is self-excited for the riser in the ocean. Due to the limitation of actual scale test conditions, the vortex-induced vibration phenomenon of flexible risers is mainly studied through model tests and numerical simulations. The model test divides the flexible riser into multiple sections, assuming that each section is a rigid cylinder, and performs a forced oscillation test or a self-excited osc...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01M7/02
Inventor 付世晓位巍许玉旺魏汉迪陈希恰
Owner SHANGHAI JIAO TONG UNIV
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