Dongkon Lee scite author profile

In this paper, we present a new passive control device for form-drag reduction in flow over a two-dimensional bluff body with a blunt trailing edge. The device consists of small tabs attached to the upper and lower trailing edges of a bluff body to effectively perturb a two-dimensional wake. Both a wind-tunnel experiment and large-eddy simulation are carried out to examine its drag-reduction performance. Extensive parametric studies are performed experimentally by varying the height and width of the tab and the spanwise spacing between the adjacent tabs at three Reynolds numbers of $\hbox{\it Re}\,{=}\,u_\infty h/\nu\,{=}\,20\,000$, 40 000 and 80 000, where $u_\infty$ is the free-stream velocity and $h$ is the body height. For a wide parameter range, the base pressure increases (i.e. drag reduces) at all three Reynolds numbers. Furthermore, a significant increase in the base pressure by more than 30% is obtained for the optimum tab configuration. Numerical simulations are performed at much lower Reynolds numbers of $\hbox{\it Re}\,{=}\,320$ and 4200 to investigate the mechanism responsible for the base-pressure increase by the tab. Results from the velocity measurement and numerical simulations show that the tab introduces the spanwise mismatch in the vortex-shedding process, resulting in a substantial reduction of the vortical strength in the wake and significant increases in the vortex formation length and wake width.

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The current status and future issues in human evacuation from ships

Lee

Kim

Park

et al. 2003

Safety Science

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A study on experiment of human behavior for evacuation simulation

2004

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Theoretical and experimental study on dynamic behavior of a damaged ship in waves

Lee¹,

Hong²,

Lee³

2007

Ocean Engineering

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Establishing the methodologies for human evacuation simulation in marine accidents

Kim

Park

Lee

et al. 2004

Computers & Industrial Engineering

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Dongkon Lee

Drag reduction in flow over a two-dimensional bluff body with a blunt trailing edge using a new passive device

The current status and future issues in human evacuation from ships

A study on experiment of human behavior for evacuation simulation

Theoretical and experimental study on dynamic behavior of a damaged ship in waves

Establishing the methodologies for human evacuation simulation in marine accidents

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