Extreme responses of a hinged raft type wave energy convertor

T Tosdevin; S Jin; A Caio; D Simmonds; M Hann; D Greaves

Extreme responses of a hinged raft type wave energy convertor

T Tosdevin
, S Jin
, A Caio
, D Simmonds
, M Hann
, D Greaves

Research output: Contribution to journal › Conference proceedings published in a journal › peer-review

21 Downloads (Pure)

Abstract

Much attention has been paid in recent years to the determination of design loads for moored floating structures and the application of established methodologies for fixed structures have been found to be ineffective. This paper experimentally investigates extreme responses of a lazy S moored 1:20 scale model of Mocean Energy’s Blue Star wave energy convertor (WEC) along the 1 year return contour. The device is a hinged raft type WEC and the extreme responses studied include mooring loads and snatch load events. Long irregular wave time series are used in the estimation of extreme value distributions of the mooring load for particular sea states. Conditional random response wave and constrained new wave profiles are used to study and support the predictions. Wave calibration and the impact of wave breaking on the physical realization of response conditioned focus waves and extreme value distribution (EVD) predictions are discussed.

Original language	English
Number of pages	0
Journal	Proceedings of the European Wave and Tidal Energy Conference
Volume	0
Issue number	0
Publication status	Published - 1 Jan 2021
Event	14th European Wave and Tidal Energy Conference, EWTEC 2021 - Virtual, Online Duration: 5 Sept 2021 → 9 Sept 2021

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Access to Document

EWTECpaper2021_4Final published version, 731 KB

Cite this

@article{2454fee9c4fe462f9d6fc1489059a949,

title = "Extreme responses of a hinged raft type wave energy convertor",

abstract = "Much attention has been paid in recent years to the determination of design loads for moored floating structures and the application of established methodologies for fixed structures have been found to be ineffective. This paper experimentally investigates extreme responses of a lazy S moored 1:20 scale model of Mocean Energy{\textquoteright}s Blue Star wave energy convertor (WEC) along the 1 year return contour. The device is a hinged raft type WEC and the extreme responses studied include mooring loads and snatch load events. Long irregular wave time series are used in the estimation of extreme value distributions of the mooring load for particular sea states. Conditional random response wave and constrained new wave profiles are used to study and support the predictions. Wave calibration and the impact of wave breaking on the physical realization of response conditioned focus waves and extreme value distribution (EVD) predictions are discussed.",

author = "T Tosdevin and S Jin and A Caio and D Simmonds and M Hann and D Greaves",

year = "2021",

month = jan,

day = "1",

language = "English",

volume = "0",

journal = "Proceedings of the European Wave and Tidal Energy Conference",

issn = "2706-6932",

publisher = "European Wave and Tidal Energy Conference Series",

number = "0",

note = "14th European Wave and Tidal Energy Conference, EWTEC 2021 ; Conference date: 05-09-2021 Through 09-09-2021",

}

TY - JOUR

T1 - Extreme responses of a hinged raft type wave energy convertor

AU - Tosdevin, T

AU - Jin, S

AU - Caio, A

AU - Simmonds, D

AU - Hann, M

AU - Greaves, D

PY - 2021/1/1

Y1 - 2021/1/1

N2 - Much attention has been paid in recent years to the determination of design loads for moored floating structures and the application of established methodologies for fixed structures have been found to be ineffective. This paper experimentally investigates extreme responses of a lazy S moored 1:20 scale model of Mocean Energy’s Blue Star wave energy convertor (WEC) along the 1 year return contour. The device is a hinged raft type WEC and the extreme responses studied include mooring loads and snatch load events. Long irregular wave time series are used in the estimation of extreme value distributions of the mooring load for particular sea states. Conditional random response wave and constrained new wave profiles are used to study and support the predictions. Wave calibration and the impact of wave breaking on the physical realization of response conditioned focus waves and extreme value distribution (EVD) predictions are discussed.

AB - Much attention has been paid in recent years to the determination of design loads for moored floating structures and the application of established methodologies for fixed structures have been found to be ineffective. This paper experimentally investigates extreme responses of a lazy S moored 1:20 scale model of Mocean Energy’s Blue Star wave energy convertor (WEC) along the 1 year return contour. The device is a hinged raft type WEC and the extreme responses studied include mooring loads and snatch load events. Long irregular wave time series are used in the estimation of extreme value distributions of the mooring load for particular sea states. Conditional random response wave and constrained new wave profiles are used to study and support the predictions. Wave calibration and the impact of wave breaking on the physical realization of response conditioned focus waves and extreme value distribution (EVD) predictions are discussed.

UR - https://www.scopus.com/record/display.uri?eid=2-s2.0-85120049301&origin=inward&txGid=c35a0eaf3067b5193bfbcebc9cef6686

UR - https://pearl.plymouth.ac.uk/secam-research/1429/

M3 - Conference proceedings published in a journal

SN - 2706-6932

VL - 0

JO - Proceedings of the European Wave and Tidal Energy Conference

JF - Proceedings of the European Wave and Tidal Energy Conference

IS - 0

T2 - 14th European Wave and Tidal Energy Conference, EWTEC 2021

Y2 - 5 September 2021 through 9 September 2021

ER -

Extreme responses of a hinged raft type wave energy convertor

Abstract

UN SDGs

Access to Document

Other files and links

Fingerprint

Cite this