Inertial waves in a fluid partially filling a cylindrical cavity during spin-up from rest |
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| Authors: | S Stergiopoulos K D Aldridge |
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| Institution: | Department of Earth and Atmospheric Science , York University , Downsview, Ontario, Canada |
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| Abstract: | Abstract Inertial waves are excited in a fluid contained in a slightly tilted rotating cylindrical cavity while the fluid is spinning up from rest. The surface of the fluid is free. Since the perturbation frequency is equal to the rotation speed resonance occurs at a critical height to radius aspect ratio of the fluid. Detailed study of a particular inertial wave shows that in solid body rotation this “eigenratio” agrees with predictions from linear inviscid theory to within 0.5%. Measured time dependence of the eigenratio during spin-up from rest is a function of the tilt amplitude and agrees favorably with predictions from a numerical study. Mean flow associated with the inertial wave becomes unstable during spin-up and in the steady state. A boundary for the unstable region is found experimentally. |
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| Keywords: | Ocean circulation modelling wind-driven flows world ocean circulation global ocean circulation |
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