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Design and manufacture of a bed supported tidal turbine model for blade and shaft load measurement in turbulent flow and waves

Name: Design and manufacture of a bed supported tidal turbine model for blade and shaft load measurement in turbulent flow and waves
Keywords: 690, Turbulence loading, Tidal stream turbine, Renewable Energy, Sustainability and the Environment, VM, Naval architecture. Shipbuilding. Marine engineering, Experimental testing, 600, Instrumentation, 620

descriptionPublicationkeyboard_double_arrow_right Article , Conference object , Journal 01 Jul 2017 United Kingdom Publisher:Elsevier BVJournal:Renewable Energy, volume 107, pages 312-326 (issn: 0960-1481,

Authors: Payne, Grégory S.; Stallard, Tim; Martinez, Rodrigo;

doi: 10.1016/j.renene.2017.01.068

handle: 20.500.11820/d72e7ba5-531b-4808-83de-25706b102625

Design and manufacture of a bed supported tidal turbine model for blade and shaft load measurement in turbulent flow and waves

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Abstract

Laboratory testing of tidal turbine models is an essential tool to investigate hydrodynamic interactions between turbines and the flow. Such tests can be used to calibrate numerical models and to estimate rotor loading and wake development to inform the design of full scale machines and array layout. The details of the design and manufacturing techniques used to develop a highly instrumented turbine model are presented. The model has a 1.2 m diameter, three bladed horizontal axis rotor and is bottom mounted. Particular attention is given to the instrumentation which can measure streamwise root bending moment for each blade and torque and thrust for the overall rotor. The model is mainly designed to investigate blade and shaft loads due to both turbulence and waves. Initial results from tests in a 2 m deep by 4 m wide flume are also presented.

Country

United Kingdom

Related Organizations

University of Salford
United Kingdom
University of Strathclyde
United Kingdom
University of Edinburgh
United Kingdom

Keywords

690, Turbulence loading, Tidal stream turbine, Renewable Energy, Sustainability and the Environment, VM, Naval architecture. Shipbuilding. Marine engineering, Experimental testing, 600, Instrumentation, 620

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Funded by

UKRI| X-MED: EXtreme Loading of Marine Energy Devices due to Waves, Current, Flotsam and Mammal Impact

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Energy Research