Assessing the Performance of the Dissipation parameterizations
in WAVEWATCH III Using Collocated Altimetry Data
Assessing the Performance of the Dissipation parameterizations
in WAVEWATCH III Using Collocated Altimetry Data
Wave-breaking dissipation is one of the least understood processes implemented in contemporary wave
models. Significant effort has been put in its parameterization, but it has not proven to be totally satisfactory,
either theoretically or practically. In this work, theWAVEWATCH III (version 2.22; Tolman) wave model is
used to evaluate the two wind input/dissipation source term packages that it includes: (i) Wave Model(WAM)
cycle 3 (WAMDIG) and (ii) Tolman and Chalikov. Global model outputs were obtained under the same wind
forcing for the two dissipation formulations and were collocated in space and time in the north Indian Ocean
with Ocean Topography Experiment (TOPEX) altimeter data. The performance of the model was assessed
by evaluating the statistical behavior of the collocated datasets. The parameters examined were significant
wave height, wind speed, wind direction, wave direction, wave height for fully developed seas, and energy loss
due to wave breaking. From the results, the behavior of the input/dissipation formulations in specific wind and
wave conditions was identified; that is, the results give insight to the way the two source term packages ‘‘work’’
and how they respond to local wind sea or swell. Specifically, both of the packages were unable to perform
adequately during a season when the area can be mostly affected by swell. However, the results confirmed that
the examination of only integral spectral wave parameters does not give information on the inherent physical
characteristics of the formulations. Further study, on the basis of point spectra, is necessary to examine the
formulations’ performance across the wave spectrum.
2800-2819
Kalantzi, Georgia D.
f40df0d1-7148-4ded-9d32-3c3d9d7f1976
Gommenginger, Christine
f0db32be-34bb-44da-944b-c6b206ca4143
Srokosz, Meric
1e0442ce-679f-43f2-8fe4-9a0f0174d483
November 2009
Kalantzi, Georgia D.
f40df0d1-7148-4ded-9d32-3c3d9d7f1976
Gommenginger, Christine
f0db32be-34bb-44da-944b-c6b206ca4143
Srokosz, Meric
1e0442ce-679f-43f2-8fe4-9a0f0174d483
Kalantzi, Georgia D., Gommenginger, Christine and Srokosz, Meric
(2009)
Assessing the Performance of the Dissipation parameterizations
in WAVEWATCH III Using Collocated Altimetry Data.
Journal of Physical Oceanography, 29 (11), .
(doi:10.1175/2009JPO4182.1).
Abstract
Wave-breaking dissipation is one of the least understood processes implemented in contemporary wave
models. Significant effort has been put in its parameterization, but it has not proven to be totally satisfactory,
either theoretically or practically. In this work, theWAVEWATCH III (version 2.22; Tolman) wave model is
used to evaluate the two wind input/dissipation source term packages that it includes: (i) Wave Model(WAM)
cycle 3 (WAMDIG) and (ii) Tolman and Chalikov. Global model outputs were obtained under the same wind
forcing for the two dissipation formulations and were collocated in space and time in the north Indian Ocean
with Ocean Topography Experiment (TOPEX) altimeter data. The performance of the model was assessed
by evaluating the statistical behavior of the collocated datasets. The parameters examined were significant
wave height, wind speed, wind direction, wave direction, wave height for fully developed seas, and energy loss
due to wave breaking. From the results, the behavior of the input/dissipation formulations in specific wind and
wave conditions was identified; that is, the results give insight to the way the two source term packages ‘‘work’’
and how they respond to local wind sea or swell. Specifically, both of the packages were unable to perform
adequately during a season when the area can be mostly affected by swell. However, the results confirmed that
the examination of only integral spectral wave parameters does not give information on the inherent physical
characteristics of the formulations. Further study, on the basis of point spectra, is necessary to examine the
formulations’ performance across the wave spectrum.
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Published date: November 2009
Additional Information:
Actually deposited by J. Conquer
Identifiers
Local EPrints ID: 71594
URI: http://eprints.soton.ac.uk/id/eprint/71594
ISSN: 0022-3670
PURE UUID: b4052821-3480-40d1-929e-d41fe4840c4c
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Date deposited: 14 Dec 2009
Last modified: 13 Mar 2024 20:36
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Contributors
Author:
Georgia D. Kalantzi
Author:
Christine Gommenginger
Author:
Meric Srokosz
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