A Systematic Approach to Offshore Wind Turbine Jacket Pre-Design and Optimization: Geometry, Cost, and Surrogate Structural Code Check Models

Rick Damiani; Ryan King; Jan Hafele; Cristian Gebhardt; Raimund Rolfes

doi:10.5194/wes-2018-39

A Systematic Approach to Offshore Wind Turbine Jacket Pre-Design and Optimization: Geometry, Cost, and Surrogate Structural Code Check Models

Rick Damiani, Ryan King, Jan Hafele, Cristian Gebhardt, Raimund Rolfes

University of Hannover

Research output: Contribution to journal › Article › peer-review

Abstract

The main obstacles in preliminary design studies or optimization of jacket substructures for offshore wind turbines are high numerical expenses for structural code checks and simplistic cost assumptions. In order to create a basis for fast design evaluations, this work provides the following: firstly, a jacket model is proposed that covers topology and tube sizing with a limited set of design variables. Secondly, a cost model is proposed that goes beyond the simple and common mass-dependent approach. And thirdly, the issue of numerical efficiency is addressed by surrogate models both for fatigue and ultimate limit state code checks. In addition, this work shows an example utilizing all models. The outcome can be utilized for preliminary design studies and jacket optimization schemes and is suitable for scientific and industrial applications.

Original language	American English
Pages (from-to)	553-572
Number of pages	20
Journal	Wind Energy Science
Volume	3
Issue number	2
DOIs	https://doi.org/10.5194/wes-2018-39
State	Published - 2018

Bibliographical note

See NREL/JA-5000-72640 for article as published in Wind Energy Science Discussions

NREL Publication Number

NREL/JA-5000-71491

Keywords

jacket model
offshore wind turbines
optimization

Access to Document

10.5194/wes-2018-39

https://www.nrel.gov/docs/fy18osti/71491.pdf

Cite this

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title = "A Systematic Approach to Offshore Wind Turbine Jacket Pre-Design and Optimization: Geometry, Cost, and Surrogate Structural Code Check Models",

abstract = "The main obstacles in preliminary design studies or optimization of jacket substructures for offshore wind turbines are high numerical expenses for structural code checks and simplistic cost assumptions. In order to create a basis for fast design evaluations, this work provides the following: firstly, a jacket model is proposed that covers topology and tube sizing with a limited set of design variables. Secondly, a cost model is proposed that goes beyond the simple and common mass-dependent approach. And thirdly, the issue of numerical efficiency is addressed by surrogate models both for fatigue and ultimate limit state code checks. In addition, this work shows an example utilizing all models. The outcome can be utilized for preliminary design studies and jacket optimization schemes and is suitable for scientific and industrial applications.",

keywords = "jacket model, offshore wind turbines, optimization",

author = "Rick Damiani and Ryan King and Jan Hafele and Cristian Gebhardt and Raimund Rolfes",

note = "See NREL/JA-5000-72640 for article as published in Wind Energy Science Discussions",

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language = "American English",

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journal = "Wind Energy Science",

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T1 - A Systematic Approach to Offshore Wind Turbine Jacket Pre-Design and Optimization: Geometry, Cost, and Surrogate Structural Code Check Models

AU - Damiani, Rick

AU - King, Ryan

AU - Hafele, Jan

AU - Gebhardt, Cristian

AU - Rolfes, Raimund

N1 - See NREL/JA-5000-72640 for article as published in Wind Energy Science Discussions

PY - 2018

Y1 - 2018

N2 - The main obstacles in preliminary design studies or optimization of jacket substructures for offshore wind turbines are high numerical expenses for structural code checks and simplistic cost assumptions. In order to create a basis for fast design evaluations, this work provides the following: firstly, a jacket model is proposed that covers topology and tube sizing with a limited set of design variables. Secondly, a cost model is proposed that goes beyond the simple and common mass-dependent approach. And thirdly, the issue of numerical efficiency is addressed by surrogate models both for fatigue and ultimate limit state code checks. In addition, this work shows an example utilizing all models. The outcome can be utilized for preliminary design studies and jacket optimization schemes and is suitable for scientific and industrial applications.

AB - The main obstacles in preliminary design studies or optimization of jacket substructures for offshore wind turbines are high numerical expenses for structural code checks and simplistic cost assumptions. In order to create a basis for fast design evaluations, this work provides the following: firstly, a jacket model is proposed that covers topology and tube sizing with a limited set of design variables. Secondly, a cost model is proposed that goes beyond the simple and common mass-dependent approach. And thirdly, the issue of numerical efficiency is addressed by surrogate models both for fatigue and ultimate limit state code checks. In addition, this work shows an example utilizing all models. The outcome can be utilized for preliminary design studies and jacket optimization schemes and is suitable for scientific and industrial applications.

KW - jacket model

KW - offshore wind turbines

KW - optimization

U2 - 10.5194/wes-2018-39

DO - 10.5194/wes-2018-39

M3 - Article

SN - 2366-7443

VL - 3

SP - 553

EP - 572

JO - Wind Energy Science

JF - Wind Energy Science

IS - 2

ER -

A Systematic Approach to Offshore Wind Turbine Jacket Pre-Design and Optimization: Geometry, Cost, and Surrogate Structural Code Check Models

Abstract

Bibliographical note

NREL Publication Number

Keywords

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Cite this