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Experimental Study on Elastic Response of Circular Cross-section Slender Body to Forced Oscillation, Waves, and Current
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 Title & Authors
Experimental Study on Elastic Response of Circular Cross-section Slender Body to Forced Oscillation, Waves, and Current
Park, Ji-won; Lee, Seung-Jae; Jo, Hyo-Jae; Hwang, Jae-Hyuk; Han, Sung-Hoon;
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 Abstract
The global demand for oil and natural gas has increased, and resource development is moving to the deep sea. Floating and flexible offshore structures such as semi-submersible, spar, and FPSO structures have been widely used. The major equipment of floating structures is always exposed to waves, currents, and other marine environmental factors, which cause structural damage. Moreover, flexible risers are susceptible to an exciting force due to the motion of the floating body. The inline and transverse responses from the three-dimensional behavior of a floating structure occur because of various forces. Typical risers are made of steel pipe and applied in the oil and gas development field, but flexible materials such as polyethylene are suitable for OTEC risers. Consequently, the optimal design of a flexible offshore plant requires a dynamic behavior analysis of slender bodies made of the different materials commonly used for offshore flexible risers. In this study, a three-dimensional motion measurement device was used to analyze the displacements of riser models induced by external force factors, and forced oscillation of a riser was linked to forced oscillation under a steady flow and regular wave condition.
 Keywords
Slender cylinder;Model test;Forced oscillation;Regular wave;Uniform flow;
 Language
Korean
 Cited by
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