Modeling and Verification of Lumped-Parameter, Multibody Structural Dynamics for Offshore Wind Turbines

Saad Rahman; Doyal Sarker; Tri Ngo; Roger Bergua; Daniel Zalkind; Jason Jonkman; Tuhin Das

doi:10.1016/j.ifacol.2025.12.242

Modeling and Verification of Lumped-Parameter, Multibody Structural Dynamics for Offshore Wind Turbines

Saad Rahman
, Doyal Sarker
, Tri Ngo
, Roger Bergua
, Daniel Zalkind
, Jason Jonkman
, Tuhin Das

National Wind Technology Center

Research output: Contribution to conference › Paper

Abstract

This paper presents the modeling and verification of multibody structural dynamics for offshore wind turbines. The flexible tower and support structure of a monopile-based offshore wind turbine are modeled using an acausal, lumped-parameter, multibody approach that incorporates structural flexibility, soil-structure interaction, and hydrodynamic models. Simulation results are benchmarked against alternative modeling approaches, demonstrating the model's ability to accurately capture both static and dynamic behaviors under various wind and wave conditions while maintaining computational efficiency. This work provides a valuable tool for analyzing key structural characteristics of wind turbines, including eigenfrequencies, mode shapes, damping, and internal forces.

Original language	American English
Pages	233-238
Number of pages	6
DOIs	https://doi.org/10.1016/j.ifacol.2025.12.242
State	Published - 2025
Event	The 5th Modeling, Estimation and Control Conference (MECC 2025) - Pittsburgh, Pennsylvania, USA Duration: 5 Oct 2025 → 8 Oct 2025

Conference

Conference	The 5th Modeling, Estimation and Control Conference (MECC 2025)
City	Pittsburgh, Pennsylvania, USA
Period	5/10/25 → 8/10/25

NLR Publication Number

NLR/CP-5000-94220

Keywords

acausal modeling
offshore wind turbine
soil-structure interaction
structural dynamics

Access to Document

10.1016/j.ifacol.2025.12.242

Cite this

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title = "Modeling and Verification of Lumped-Parameter, Multibody Structural Dynamics for Offshore Wind Turbines",

abstract = "This paper presents the modeling and verification of multibody structural dynamics for offshore wind turbines. The flexible tower and support structure of a monopile-based offshore wind turbine are modeled using an acausal, lumped-parameter, multibody approach that incorporates structural flexibility, soil-structure interaction, and hydrodynamic models. Simulation results are benchmarked against alternative modeling approaches, demonstrating the model's ability to accurately capture both static and dynamic behaviors under various wind and wave conditions while maintaining computational efficiency. This work provides a valuable tool for analyzing key structural characteristics of wind turbines, including eigenfrequencies, mode shapes, damping, and internal forces.",

keywords = "acausal modeling, offshore wind turbine, soil-structure interaction, structural dynamics",

author = "Saad Rahman and Doyal Sarker and Tri Ngo and Roger Bergua and Daniel Zalkind and Jason Jonkman and Tuhin Das",

year = "2025",

doi = "10.1016/j.ifacol.2025.12.242",

language = "American English",

pages = "233--238",

note = "The 5th Modeling, Estimation and Control Conference (MECC 2025) ; Conference date: 05-10-2025 Through 08-10-2025",

}

Rahman, S, Sarker, D, Ngo, T, Bergua, R , Zalkind, D , Jonkman, J & Das, T 2025, 'Modeling and Verification of Lumped-Parameter, Multibody Structural Dynamics for Offshore Wind Turbines', Paper presented at The 5th Modeling, Estimation and Control Conference (MECC 2025), Pittsburgh, Pennsylvania, USA, 5/10/25 - 8/10/25 pp. 233-238. https://doi.org/10.1016/j.ifacol.2025.12.242

TY - CONF

T1 - Modeling and Verification of Lumped-Parameter, Multibody Structural Dynamics for Offshore Wind Turbines

AU - Rahman, Saad

AU - Sarker, Doyal

AU - Ngo, Tri

AU - Bergua, Roger

AU - Zalkind, Daniel

AU - Jonkman, Jason

AU - Das, Tuhin

PY - 2025

Y1 - 2025

N2 - This paper presents the modeling and verification of multibody structural dynamics for offshore wind turbines. The flexible tower and support structure of a monopile-based offshore wind turbine are modeled using an acausal, lumped-parameter, multibody approach that incorporates structural flexibility, soil-structure interaction, and hydrodynamic models. Simulation results are benchmarked against alternative modeling approaches, demonstrating the model's ability to accurately capture both static and dynamic behaviors under various wind and wave conditions while maintaining computational efficiency. This work provides a valuable tool for analyzing key structural characteristics of wind turbines, including eigenfrequencies, mode shapes, damping, and internal forces.

AB - This paper presents the modeling and verification of multibody structural dynamics for offshore wind turbines. The flexible tower and support structure of a monopile-based offshore wind turbine are modeled using an acausal, lumped-parameter, multibody approach that incorporates structural flexibility, soil-structure interaction, and hydrodynamic models. Simulation results are benchmarked against alternative modeling approaches, demonstrating the model's ability to accurately capture both static and dynamic behaviors under various wind and wave conditions while maintaining computational efficiency. This work provides a valuable tool for analyzing key structural characteristics of wind turbines, including eigenfrequencies, mode shapes, damping, and internal forces.

KW - acausal modeling

KW - offshore wind turbine

KW - soil-structure interaction

KW - structural dynamics

U2 - 10.1016/j.ifacol.2025.12.242

DO - 10.1016/j.ifacol.2025.12.242

M3 - Paper

SP - 233

EP - 238

T2 - The 5th Modeling, Estimation and Control Conference (MECC 2025)

Y2 - 5 October 2025 through 8 October 2025

ER -

Modeling and Verification of Lumped-Parameter, Multibody Structural Dynamics for Offshore Wind Turbines

Abstract

Conference

NLR Publication Number

Keywords

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