%0 Journal Article
%T Effects of Crosswise Appendage Plate Flexibility on the Drag Reduction Characteristics of Cylinder
%A Jiyao Yang
%A Xiaomei Ye
%A Guoyi He
%A Feng Yu
%J Journal of Applied Mathematics and Physics
%P 2032-2040
%@ 2327-4379
%D 2024
%I Scientific Research Publishing
%R 10.4236/jamp.2024.126124
%X In engineering applications (Like an ocean riser), fluid flow around bluff bodies generates substantial resistance, which can jeopardize structural integrity, lifespan, and escalate resource consumption. Therefore, employing drag reduction measures becomes particularly crucial. This paper employs the immersed boundary method to investigate the impact of transversely oriented appendage plate flexibility on the drag of cylinders under different Reynolds numbers and distances. The results indicate that flexible appendage plate exerts drag reduction effects on the downstream cylinder, with this effect gradually diminishing as Reynolds numbers increase. At identical Reynolds numbers, the drag reduction effect initially increases and then decreases with distance, with the optimal drag reduction distance observed at D = 2.5. Compared to cylinders without appendage plate, the maximum drag reduction achieved is 30.551%. Addressing the drag reduction issue in cylinders holds significant importance for ensuring engineering structural integrity, enhancing engineering efficiency, and developing novel underwater towing systems.
%K Appendage Plate
%K Flexibility
%K Cylinder Flow
%K Drag Reduction
%U http://www.scirp.org/journal/PaperInformation.aspx?PaperID=133779