Validation of a wave energy converter numerical model through small scale laboratory measurements

Authors

DOI:

https://doi.org/10.4408/IJEGE.2020-01.S-04

Keywords:

Computational Fluid Dynamics, U-OWC, wave energy, image analysis

Abstract

In the field of Engineering, research has conveniently exploited the fluids for energy production. The possibility to use marine renewable energy is still under development, in particular, among the wave energy converter devices the U-OWC systems are the most promising. The main objective of this work is to validate a numerical model with an experimental campaign that aims to simulate the flow field in front of the breakwater and inside the U-OWC. The tests were carried out to understand the hydrodynamic behaviour of the device in regular wave conditions, inside a flume with rectangular section, equipped by a piston-type wave-maker and a U-OWC device, reproducing the REWEC caisson installed in the Natural Ocean Engineering Laboratory (NOEL) of Reggio Calabria, with a 1:13.5 scale. Measurements of the water free surface were used exclusively to validate the 2D numerical model developed through the Ansys Fluent Computational FluidDynamics (CFD) Software. The numerical model solves the fluid flow field using the RANS equations, in which the air-water interaction governed by this set of partial difference equations is solved with the Finite Volume Method (FVM). In conclusion, results related to the energy efficiency of the caisson were extrapolated from the validated numerical model.

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Published

2020-11-30

How to Cite

Carlo, L., Brusca, S., Cucinotta, F., Galvagno, A., Faraci, C., & Arena, F. (2020). Validation of a wave energy converter numerical model through small scale laboratory measurements. Italian Journal of Engineering Geology and Environment, 31–40. https://doi.org/10.4408/IJEGE.2020-01.S-04