The potential of baffles in increasing the hydrodynamic damping of sloshing in circular-cylindrical storage tanks is investigated in this study. Based on the widespread use of baffles in moving liquid containers especially in space vehicles, the ability of baffles in reducing the sloshing effects in storage tanks that are especially broader than fuel containers was under question. Concerning horizontal ring and vertical blade baffles, an estimation of hydrodynamic damping ratio of liquid sloshing in baffled tanks undergoing horizontal excitation has been developed analytically using Laplace's differential equation solution. This method involves the assessment of dissipated fraction of total sloshing oscillation energy, which is caused by the flow separation around the baffles. A series of experiments employing a tank model on a shake-table has been carried out to validate the theoretically predicted damping ratio. A parametric study showed that the ring baffles are more effective in reducing the sloshing oscillations.
[1]
G. H. Keulegan,et al.
Forces on cylinders and plates in an oscillating fluid
,
1958
.
[2]
Turgut Sarpkaya,et al.
Oscillating Flow About Two and Three-Dimensional Bilge Keels
,
1996
.
[3]
H. Norman Abramson,et al.
The Dynamic Behavior of Liquids in Moving Containers. NASA SP-106
,
1966
.
[4]
David G. Stephens,et al.
AN EXPERIMENTAL INVESTIGATION OF THE DAMPING OF LIQUID OSCILLATIONS IN CYLINDRICAL TANKS WITH VARIOUS BAFFLES
,
1961
.
[5]
Young-Shin Lee,et al.
Coupled vibration analysis of liquid-filled rigid cylindrical storage tank with an annular plate cover
,
2005
.
[6]
Joon-Hyung Cho,et al.
Finite element analysis of resonant sloshing response in 2-D baffled tank
,
2005
.
[7]
Michael Isaacson,et al.
HYDRODYNAMIC DAMPING DUE TO BAFFLES IN A RECTANGULAR TANK
,
2001
.