Applied Sciences (Oct 2023)
Study on Vortex-Induced Vibration Response of Riser under the Action of Oscillating Flow Superposition
Abstract
Based on the slicing method and overlapping grid method, the bidirectional and sequential coupling of the fluid domain and riser structure is realized by UDF programming. A numerical model of vortex-solid coupling is constructed to study vortex-induced vibration characteristics of risers with different velocity ratios and different oscillation frequencies under the effect of superimposed oscillating flow. With the increase of the velocity ratio, a higher order formation appeared in the transverse vibration envelope of the riser. Meanwhile, with the increase of oscillation frequency, the vertical tube vibration envelope changed from “symmetrical up and down” to “wide up and narrow down”. There is an obvious process of “establishment”, “locking” and “decay” in the transverse-flow displacement of the riser to dimensionless, and the proportion of the “locking” phase increases gradually with the flow rate ratio, changing from 0.50 to 0.62. The effect of the oscillation frequency of the superimposed flow on the proportion of the “locked” stage is not evident. When the oscillation frequency is 0.25f1, the proportion of the “locked” stage of the riser reaches 50%.
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