Midfidelity Model Verification for a Point-Absorbing Wave Energy Converter with Linear Power Take-Off: Paper No. 1877

E. Katsidoniotaki; Yi-Hsiang Yu; M. Goteman

Midfidelity Model Verification for a Point-Absorbing Wave Energy Converter with Linear Power Take-Off: Paper No. 1877

E. Katsidoniotaki
, Yi-Hsiang Yu
, M. Goteman

Center for Energy Conversion and Storage Systems

Uppsala University
National Renewable Energy Laboratory

Research output: Contribution to conference › Paper

Abstract

In the preliminary design stage of a wave energy converter (WEC), fast and reliable simulation tools are required. High-fidelity numerical models are usually employed to study the wave-structure interaction, yet the computational cost is demanding. Instead, mid-fidelity models provide simulations in the order of real time. In this study, Uppsala University WEC operates in a relatively mild sea state and is modeled using WEC-Sim. The model is verified based on OpenFOAM simulations. To analyze the ability of mid-fidelity model to capture the WEC dynamics, the system is investigated separately in 1, 2 and 3 DoF. The contribution of viscous phenomena is examined. Moreover, linear and weakly non-linear solutions provided by WEC-Sim are studied. The results obtained indicate that the viscous effects in heave and surge motion can be neglected but not for the pitch. The weakly non-linear WEC-Sim solution successfully agrees with the CFD, whereas the linear solution could drive to misleading results.

Original language	American English
Number of pages	9
State	Published - 2021
Event	European Wave and Tidal Energy Conference (EWTEC 2021) - Duration: 5 Sep 2021 → 9 Sep 2021

Conference

Conference	European Wave and Tidal Energy Conference (EWTEC 2021)
Period	5/09/21 → 9/09/21

Bibliographical note

See NREL/CP-5700-78569 for preprint

NLR Publication Number

NREL/CP-5700-81754

Keywords

CFD
hydrodynamic analysis
numerical simulations
offshore renewables
point-absorber verification
wave energy
wave-structure interaction
WEC-Sim

Cite this

@conference{090ba0ade92e49378bcbc02d2a512518,

title = "Midfidelity Model Verification for a Point-Absorbing Wave Energy Converter with Linear Power Take-Off: Paper No. 1877",

abstract = "In the preliminary design stage of a wave energy converter (WEC), fast and reliable simulation tools are required. High-fidelity numerical models are usually employed to study the wave-structure interaction, yet the computational cost is demanding. Instead, mid-fidelity models provide simulations in the order of real time. In this study, Uppsala University WEC operates in a relatively mild sea state and is modeled using WEC-Sim. The model is verified based on OpenFOAM simulations. To analyze the ability of mid-fidelity model to capture the WEC dynamics, the system is investigated separately in 1, 2 and 3 DoF. The contribution of viscous phenomena is examined. Moreover, linear and weakly non-linear solutions provided by WEC-Sim are studied. The results obtained indicate that the viscous effects in heave and surge motion can be neglected but not for the pitch. The weakly non-linear WEC-Sim solution successfully agrees with the CFD, whereas the linear solution could drive to misleading results.",

keywords = "CFD, hydrodynamic analysis, numerical simulations, offshore renewables, point-absorber verification, wave energy, wave-structure interaction, WEC-Sim",

author = "E. Katsidoniotaki and Yi-Hsiang Yu and M. Goteman",

note = "See NREL/CP-5700-78569 for preprint; European Wave and Tidal Energy Conference (EWTEC 2021) ; Conference date: 05-09-2021 Through 09-09-2021",

year = "2021",

language = "American English",

}

TY - CONF

T1 - Midfidelity Model Verification for a Point-Absorbing Wave Energy Converter with Linear Power Take-Off

T2 - European Wave and Tidal Energy Conference (EWTEC 2021)

AU - Katsidoniotaki, E.

AU - Yu, Yi-Hsiang

AU - Goteman, M.

N1 - See NREL/CP-5700-78569 for preprint

PY - 2021

Y1 - 2021

N2 - In the preliminary design stage of a wave energy converter (WEC), fast and reliable simulation tools are required. High-fidelity numerical models are usually employed to study the wave-structure interaction, yet the computational cost is demanding. Instead, mid-fidelity models provide simulations in the order of real time. In this study, Uppsala University WEC operates in a relatively mild sea state and is modeled using WEC-Sim. The model is verified based on OpenFOAM simulations. To analyze the ability of mid-fidelity model to capture the WEC dynamics, the system is investigated separately in 1, 2 and 3 DoF. The contribution of viscous phenomena is examined. Moreover, linear and weakly non-linear solutions provided by WEC-Sim are studied. The results obtained indicate that the viscous effects in heave and surge motion can be neglected but not for the pitch. The weakly non-linear WEC-Sim solution successfully agrees with the CFD, whereas the linear solution could drive to misleading results.

AB - In the preliminary design stage of a wave energy converter (WEC), fast and reliable simulation tools are required. High-fidelity numerical models are usually employed to study the wave-structure interaction, yet the computational cost is demanding. Instead, mid-fidelity models provide simulations in the order of real time. In this study, Uppsala University WEC operates in a relatively mild sea state and is modeled using WEC-Sim. The model is verified based on OpenFOAM simulations. To analyze the ability of mid-fidelity model to capture the WEC dynamics, the system is investigated separately in 1, 2 and 3 DoF. The contribution of viscous phenomena is examined. Moreover, linear and weakly non-linear solutions provided by WEC-Sim are studied. The results obtained indicate that the viscous effects in heave and surge motion can be neglected but not for the pitch. The weakly non-linear WEC-Sim solution successfully agrees with the CFD, whereas the linear solution could drive to misleading results.

KW - CFD

KW - hydrodynamic analysis

KW - numerical simulations

KW - offshore renewables

KW - point-absorber verification

KW - wave energy

KW - wave-structure interaction

KW - WEC-Sim

M3 - Paper

Y2 - 5 September 2021 through 9 September 2021

ER -

Midfidelity Model Verification for a Point-Absorbing Wave Energy Converter with Linear Power Take-Off: Paper No. 1877

Abstract

Conference

Bibliographical note

NLR Publication Number

Keywords

Fingerprint

Cite this