THE EFFECT OF DIFFRACTION ON THE REDISTRIBUTION OF WAVE ENERGY IN THE LEE OF AN OVERTOPPING TYPE WAVE ENEGRY CONVERTER ARRAY

Kieran Umit Monk, Qingping Zou, Daniel Conley

Abstract


A computationally efficient approximate analytical solution based on the classic solution for diffraction about a semi-infinite breakwater, is developed to assess the wave energy shadow down-wave of a single row array of overtopping type wave energy converters approximated as partially transmitting breakwater segments. The approximations associated with the solution are mitigated by a comparison with the mathematically exact but more computationally expensive boundary element method for the same problem. The approximate analytical solution is compared with a non-physical solution where diffraction is not accounted for to quantify the net re-distribution of wave energy by the diffraction mechanism with increasing down-wave distance from the array.

Keywords


wave energy converter; wave energy shadow; scattering; diffraction; breakwater, wave dragon;

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