Wave Boundary Layer: Parameterization Technique and Its Proof |
Belevich, M.
(Wave Research Center, General Physics Institute, Russian Academy of Sciences)
Safray, A. (Wave Research Center, General Physics Institute, Russian Academy of Sciences) Lee, Kwi-Joo (Department of Naval Architecture and Ocean Engineering. Chosun University) Kim, Kyoung-Hwa (Department of Naval Architecture and Ocean Engineering. Chosun University) |
1 |
A Proposed Spectral Form for Fully-Developed Wind Seas Based on the Similarity Theory of S.A Kitaigorodskii
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DOI |
2 |
Between Wind Stress and Wave Slope
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DOI |
3 |
Directional Spectra of Wind-Generated Waves
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4 |
On the Wind Energy Transfer to Surface Gravity Waves
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5 |
Impact of Waves on Air-Sea Exchange of Sensible Heat and Momentum
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DOI ScienceOn |
6 |
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7 |
Directional Wave Spectra Observed During JONSWAP
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DOI |
8 |
Evaluation of the Mutual Influence of the Wind-Wave Boundary Layer
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9 |
The WAMModel - A Third Generation Ocean Wave Prediction Model
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DOI |
10 |
Measurements of Wind-Wave Growth and Swell Decay During the Joint Sea Wave Project (JONSWAP)
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11 |
Joint Adaptive Model of the Nearwater Wind and Wind Waves
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12 |
On the Influence of Thermal Stratification on the Structure of the Wave Boundary Layer
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13 |
One-dimensional Theory of the Wave Boundary Layer
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DOI |
14 |
Determination of Universal Profiles of Wind and Temperature in the Near-Earth Atmospheric Layer
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15 |
On the Approximation of the Wind-Wave Interaction Parameter
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16 |
Boundary-Layer Model Results for Wind-Sea Growth
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DOI ScienceOn |
17 |
Calculation of Momentum and Energy Fluxes going to Developing Waves
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