Tom Bruce scite author profile

This work investigates wave reflection and loading on a generalised Oscillating Water Column (OWC) wave energy converter by means of large scale (approximately 1:5-1:9) experiments in the Grosse Wellenkanal (GWK), in which variation of both still water depth and orifice (PTO) dimension are investigated under random waves. The model set-up, calibration methodology, reflection analyses and loadings acting on the OWC are reported.On the basis of wave reflection analysis, the optimum orifice is defined as that restriction which causes the smallest reflection coefficient and thus the greatest wave energy extraction. Pressures on the front wall, rear wall and chamber ceiling are measured. Maximum pressures on the vertical walls, and resulting integrated forces, are compared with available formulations for impulsive loading prediction, which showed significant underestimation for The present study demonstrates that a OWC structure can serve as a wave absorber for reducing wave reflection. Thus it can be integrated in vertical wall breakwaters, in place of other perforated low reflection alternatives. The possibility to convert air kinetic into electric energy, by means of a turbine, may give an additional benefit. Thus the installation of such kind of energy converters becomes interesting also in low energy seas.

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Influence of Parapets and Recurves on Wave Overtopping and Wave Loading of Complex Vertical Walls

Kortenhaus¹,

Pearson

Bruce³

et al. 2004

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Wave Impact on a Wall Using Pressure-Impulse Theory. I: Trapped Air

Wood

Peregrine

Bruce

2000

J. Waterway, Port, Coastal, Ocean Eng.

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Variation of loads on a three-bladed horizontal axis tidal turbine with frequency and blade position

Payne

Stallard

Martínez

et al. 2018

Journal of Fluids and Structures

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Field and laboratory measurements of mean overtopping discharges and spatial distributions at vertical seawalls

Pullen

Allsop

Bruce

et al. 2009

Coastal Engineering

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Tom Bruce

Breaking wave loads at vertical seawalls and breakwaters

New Physical Insights and Design Formulas on Wave Overtopping at Sloping and Vertical Structures

Overtopping performance of different armour units for rubble mound breakwaters

Large-scale experiments on the behaviour of a generalised Oscillating Water Column under random waves

Influence of Parapets and Recurves on Wave Overtopping and Wave Loading of Complex Vertical Walls

Wave Impact on a Wall Using Pressure-Impulse Theory. I: Trapped Air

Variation of loads on a three-bladed horizontal axis tidal turbine with frequency and blade position

Field and laboratory measurements of mean overtopping discharges and spatial distributions at vertical seawalls

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