Tim Stallard scite author profile

It is well known that a wake will develop downstream of a tidal stream turbine owing to extraction of axial momentum across the rotor plane. To select a suitable layout for an array of horizontal axis tidal stream turbines, it is important to understand the extent and structure of the wakes of each turbine. Studies of wind turbines and isolated tidal stream turbines have shown that the velocity reduction in the wake of a single device is a function of the rotor operating state (specifically thrust), and that the rate of recovery of wake velocity is dependent on mixing between the wake and the surrounding flow. For an unbounded flow, the velocity of the surrounding flow is similar to that of the incident flow. However, the velocity of the surrounding flow will be increased by the presence of bounding surfaces formed by the bed and free surface, and by the wake of adjacent devices. This paper presents the results of an experimental study investigating the influence of such bounding surfaces on the structure of the wake of tidal stream turbines.

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Wave Basin Experiments with Large Wave Energy Converter Arrays to Study Interactions between the Converters and Effects on Other Users in the Sea and the Coastal Area

Stratigaki

Troch

Stallard

et al. 2014

Energies

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Abstract:Experiments have been performed in the Shallow Water Wave Basin of DHI (Hørsholm, Denmark), on large arrays of up to 25 heaving point absorber type Wave Energy Converters (WECs), for a range of geometric layout configurations and wave conditions. WEC response and modifications of the wave field are measured to provide OPEN ACCESSEnergies 2014, 7 702 data for understanding WEC array interactions and to evaluate array interaction numerical models. Each WEC consists of a buoy with a diameter of 0.315 m and power take-off (PTO) is modeled by realizing friction based energy dissipation through damping of the WEC's motion. Wave gauges are located within and around the WEC array. Wave conditions studied include regular, polychromatic, long-and short-crested irregular waves. A rectilinear arrangement of WEC support structures is employed such that several array configurations can be studied. In this paper, the experimental arrangement and the obtained database are presented. Also, results for wave height attenuation downwave a rectilinear array of 25 heaving WECs are presented, for the case of irregular waves. Up to 16.3% and 18.1% (long-crested) and 11.2% and 18.1% (short-crested waves) reduction in significant wave height is observed downwave the WEC array, for the radiated wave field only and for the combination of incident-diffracted-radiated (perturbed) wave field, respectively. Using spectra at different locations within and around the array, the wave field modifications are presented and discussed.

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Turbulent flow and loading on a tidal stream turbine by LES and RANS

Afgan

McNaughton

Rolfo

et al. 2013

International Journal of Heat and Fluid Flow

116

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Large capacity multi-float configurations for the wave energy converter M4 using a time-domain linear diffraction model

Stansby

Moreno

Stallard

2017

Applied Ocean Research

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Experimental study of the mean wake of a tidal stream rotor in a shallow turbulent flow

Stallard

Tao

Stansby

2015

Journal of Fluids and Structures

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Comparison of a RANS blade element model for tidal turbine arrays with laboratory scale measurements of wake velocity and rotor thrust

Olczak

Stallard²,

Tao

et al. 2016

Journal of Fluids and Structures

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Three-float broad-band resonant line absorber with surge for wave energy conversion

et al. 2015

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Fluctuating loads on a tidal turbine due to velocity shear and turbulence: Comparison of CFD with field data

et al. 2017

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Tim Stallard

Interactions between tidal turbine wakes: experimental study of a group of three-bladed rotors

Wave Basin Experiments with Large Wave Energy Converter Arrays to Study Interactions between the Converters and Effects on Other Users in the Sea and the Coastal Area

Turbulent flow and loading on a tidal stream turbine by LES and RANS

Large capacity multi-float configurations for the wave energy converter M4 using a time-domain linear diffraction model

Experimental study of the mean wake of a tidal stream rotor in a shallow turbulent flow

Comparison of a RANS blade element model for tidal turbine arrays with laboratory scale measurements of wake velocity and rotor thrust

Three-float broad-band resonant line absorber with surge for wave energy conversion

Fluctuating loads on a tidal turbine due to velocity shear and turbulence: Comparison of CFD with field data

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