Klein, MarcoMarcoKleinClauss, Günther F.Günther F.ClaussRajendran, SureshSureshRajendranSoares, Carlos GuedesCarlos GuedesSoaresOnorato, MiguelMiguelOnorato2020-01-232020-01-232016-12-01Ocean Engineering (128): 199-212 (2016-12-01)http://hdl.handle.net/11420/4474This paper introduces the Peregrine breather solution of the nonlinear Schrödinger-type equation as an innovative design wave. The major benefits are the potential to generate abnormal waves of certain frequency up to physically possible wave heights, the symmetrical abnormal wave shape and the availability of an analytical solution. The characteristics of Peregrine breathers as well as their impact on marine structures were investigated. To evaluate the applicability of the Peregrine breather solution as design wave, wave-structure investigations with a LNG carrier were performed in a set of Peregrine breathers at certain frequencies. The investigations comprised model tests as well as numerical simulations. For the purpose of comparison, a real-world abnormal wave reproduction was additionally investigated allowing the evaluation of breather-type abnormal waves regarding the applicability as design wave. Therefore, the famous ‘New Year Wave’, an abnormal wave recorded in the North Sea at the Draupner jacket platform on January 1st, 1995, was selected.en0029-8018Ocean engineering2016199212Abnormal wavesBody nonlinear time domain simulationDesign waveNew Year WavePeregrine breatherWave-structure-interactionPeregrine breathers as design waves for wave-structure interactionJournal Article10.1016/j.oceaneng.2016.09.042Other