Abstract
To accurately estimate the navigation safety of a barge in still water and waves, computational fluid dynamics (CFD) was used to calculate the hydrodynamic force on the barge and simulate the flow field to comprehensively study the effect of skeg for wave drift force and directional stability of the barge. With respect to the wave drift force, the steady surge force and steady sway force are found to decrease due to the skeg effect in both short and long wavelength regions. The overall steady yaw moment tends to be reduced by the skeg. As the drift angle increased, the sway force and yaw moment also increased. The changing trend in the sway force varied with the angular velocity, depending on the installation of the skeg, and it was noted that the yaw moment value significantly increased because of the skeg. Owing to the effect of the skeg installed on the barge, the yaw damping lever became larger, while the sway damping lever became smaller regardless of waves. It was confirmed that the directional stability was improved both in still water and head waves.
Highlights
In the stern towing method where a tug pulls a barge from the stern side, the directional stability of the barge is one of the most important factors in the operation of the tug-barge system
The overall steady yaw moment tends to be reduced by the skeg
This study estimated the navigational safety of a barge in still water and head waves using computational fluid dynamics (CFD)
Summary
In the stern towing method where a tug pulls a barge from the stern side, the directional stability of the barge is one of the most important factors in the operation of the tug-barge system. The study on the directional stability of the barge in still water was conducted by experimental [3] and numerical methods [4], and the characteristics of the maneuvering performance of the barge were analyzed. Numerical simulations were performed using CFD to calculate the hydrodynamic forces acting on the barge in still water and head waves for its safe navigation in sea areas. The static drift motion test and pure yaw motion test were performed to obtain the maneuvering hydrodynamic derivatives Based on these results, the directional stability of the barge in still water and waves considering the skeg effect were evaluated
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