K. Govender scite author profile

[1] The measurement of mean water levels, roller geometries, and phase ensembleaveraged velocity and turbulence intensity fields under spilling and plunging waves breaking in a two-dimensional laboratory surf zone is presented. The velocities were measured using digital correlation image velocimetry, while water levels and roller geometries were determined through gray scale filtering of video images. The phase ensemble-averaged horizontal and vertical components of velocity and turbulence intensities are measured throughout the entire flow domain, including the wave roller area, by utilizing the aerated areas as part of the flow structure. The time-averaged horizontal velocities (undertow), turbulence intensities, and turbulent kinetic energies are determined by averaging across the wave phase. Turbulence magnitudes are found to compare favorably with existing laser Doppler anemometry measurements below the wave trough level, where such measurements have generally been confined because of aeration contamination effects. The significantly higher velocity and turbulence intensity magnitudes measured above the trough level in the present experiments highlight the novel nature of the present investigation for describing flow regimes in the surf zone. INDEX

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Dissipation of isotropic turbulence and length‐scale measurements through the wave roller in laboratory spilling waves

Govender

Mocke²,

Alport

2004

J. Geophys. Res.

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[1] The measurement of turbulence dissipation rates and length scales associated with three-dimensional isotropic structures under spilling waves breaking in a laboratory surf zone is presented. Dissipation rates were estimated from the spectral characteristics of the turbulence velocities in the inertial subrange, and length scales were estimated using measurements of the turbulent kinetic energy and dissipation rate. The spatial velocity flow fields for the above analysis were measured using digital correlation image velocimetry. A unique set of measurements that spans the entire water column, including the aerated portion near the crest of the wave, is presented. Dissipation rates were found to reach a maximum above the effective trough level, with over 80% of the depth integrated dissipation occurring in this upper zone. The total depth integrated turbulence dissipation rate is found to be up to an order of magnitude smaller than the local rate of wave energy dissipation due to breaking, the primary turbulence production source. The length scale is found to increase in magnitude below the surface, consistent with the idea that turbulence production occurs above the trough level in the vicinity of the wave roller and is transported downward toward the bed.INDEX TERMS: 4546 Oceanography: Physical: Nearshore processes; 4568 Oceanography: Physical: Turbulence, diffusion, and mixing processes; 4558 Oceanography: Physical: Sediment transport; KEYWORDS: digital correlation image velocimetry, dissipation rates, length scales, turbulent kinetic energy, wave breaking, surf zone Citation: Govender, K., G. P. Mocke, and M. J. Alport (2004), Dissipation of isotropic turbulence and length-scale measurements through the wave roller in laboratory spilling waves,

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DCIV measurements of flow fields and turbulence in waves breaking over a bar

Govender

Michallet

Alport

2011

European Journal of Mechanics - B/Fluids

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Video DCIV measurements of mass and momentum fluxes and kinetic energies in laboratory waves breaking over a bar

Govender

Michallet

Alport

et al. 2009

Coastal Engineering

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Video Measurements of Fluid Velocities and Water Levels in Breaking Waves

Govender¹,

Alport²,

Mocke³

et al. 2001

Physica Scripta

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The cost-e¡ective measurement of the velocity £ow ¢elds in breaking water waves, using particle and correlation image velocimetry, is described. The £uid velocities are estimated by tracking the motion of neutrally buoyant particles and aeration structures. Results of the phase-ensemble-averaged velocity £ow ¢elds, time-averaged horizontal velocities and turbulence results are presented for laboratory waves breaking on a beach of slope 1:20 and for waves breaking over a submerged bar. A comparison of measurements using video and LDA techniques is also presented. The measurement of water levels and wave roller structures is accomplished by generating a video time series of the wave at a given horizontal position, from which the water levels and rollers structures are extracted.

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K. Govender

Video‐imaged surf zone wave and roller structures and flow fields

Dissipation of isotropic turbulence and length‐scale measurements through the wave roller in laboratory spilling waves

DCIV measurements of flow fields and turbulence in waves breaking over a bar

Video DCIV measurements of mass and momentum fluxes and kinetic energies in laboratory waves breaking over a bar

Video Measurements of Fluid Velocities and Water Levels in Breaking Waves

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