Floating Wind Array Ontology and Modeling Framework

Leah Sirkis; Matt Hall; Ericka Lozon; Stein Housner; Felipe Moreno

Floating Wind Array Ontology and Modeling Framework

National Wind Technology Center

Research output: NLR › Presentation

Abstract

While there are many tools for designing and modeling a single floating turbine, array level design and modeling has much more to consider. Designing floating wind arrays requires a coupled approach considering many variables, from bathymetry to installation and maintenance to failure and risk analysis. With all of these considerations, an array-level modeling tool is needed to quickly evaluate array designs. The Floating Array Model (FAModel) tool developed at the National Renewable Energy Laboratory was created to fill this gap in low-fidelity array modeling. FAModel is a python framework created to streamline holistic low-fidelity floating wind modeling for array-level analysis. FAModel integrates site data and models with a variety of open-source modeling tools developed by NREL, including FLORIS, RAFT, MoorPy, and anchor capacity models. The integration of these tools allows users to quickly and holistically design an array by considering forces, area analysis, visualization, annual energy production, failure modeling, and component costs.

Original language	American English
Number of pages	26
State	Published - 2024

Publication series

Name	Presented at the 7th Wind Energy Systems Engineering Workshop, 3-5 December 2024, Roskilde, Denmark

NLR Publication Number

NREL/PR-5000-93618

Keywords

array modeling
floating array
floating wind

Access to Document

https://www.nrel.gov/docs/fy26osti/93618.pdf

Cite this

@misc{e813723d579c4c41b6f7ba544510b6fb,

title = "Floating Wind Array Ontology and Modeling Framework",

abstract = "While there are many tools for designing and modeling a single floating turbine, array level design and modeling has much more to consider. Designing floating wind arrays requires a coupled approach considering many variables, from bathymetry to installation and maintenance to failure and risk analysis. With all of these considerations, an array-level modeling tool is needed to quickly evaluate array designs. The Floating Array Model (FAModel) tool developed at the National Renewable Energy Laboratory was created to fill this gap in low-fidelity array modeling. FAModel is a python framework created to streamline holistic low-fidelity floating wind modeling for array-level analysis. FAModel integrates site data and models with a variety of open-source modeling tools developed by NREL, including FLORIS, RAFT, MoorPy, and anchor capacity models. The integration of these tools allows users to quickly and holistically design an array by considering forces, area analysis, visualization, annual energy production, failure modeling, and component costs.",

keywords = "array modeling, floating array, floating wind",

author = "Leah Sirkis and Matt Hall and Ericka Lozon and Stein Housner and Felipe Moreno",

year = "2024",

language = "American English",

series = "Presented at the 7th Wind Energy Systems Engineering Workshop, 3-5 December 2024, Roskilde, Denmark",

type = "Other",

}

TY - GEN

T1 - Floating Wind Array Ontology and Modeling Framework

AU - Sirkis, Leah

AU - Hall, Matt

AU - Lozon, Ericka

AU - Housner, Stein

AU - Moreno, Felipe

PY - 2024

Y1 - 2024

N2 - While there are many tools for designing and modeling a single floating turbine, array level design and modeling has much more to consider. Designing floating wind arrays requires a coupled approach considering many variables, from bathymetry to installation and maintenance to failure and risk analysis. With all of these considerations, an array-level modeling tool is needed to quickly evaluate array designs. The Floating Array Model (FAModel) tool developed at the National Renewable Energy Laboratory was created to fill this gap in low-fidelity array modeling. FAModel is a python framework created to streamline holistic low-fidelity floating wind modeling for array-level analysis. FAModel integrates site data and models with a variety of open-source modeling tools developed by NREL, including FLORIS, RAFT, MoorPy, and anchor capacity models. The integration of these tools allows users to quickly and holistically design an array by considering forces, area analysis, visualization, annual energy production, failure modeling, and component costs.

AB - While there are many tools for designing and modeling a single floating turbine, array level design and modeling has much more to consider. Designing floating wind arrays requires a coupled approach considering many variables, from bathymetry to installation and maintenance to failure and risk analysis. With all of these considerations, an array-level modeling tool is needed to quickly evaluate array designs. The Floating Array Model (FAModel) tool developed at the National Renewable Energy Laboratory was created to fill this gap in low-fidelity array modeling. FAModel is a python framework created to streamline holistic low-fidelity floating wind modeling for array-level analysis. FAModel integrates site data and models with a variety of open-source modeling tools developed by NREL, including FLORIS, RAFT, MoorPy, and anchor capacity models. The integration of these tools allows users to quickly and holistically design an array by considering forces, area analysis, visualization, annual energy production, failure modeling, and component costs.

KW - array modeling

KW - floating array

KW - floating wind

M3 - Presentation

T3 - Presented at the 7th Wind Energy Systems Engineering Workshop, 3-5 December 2024, Roskilde, Denmark

ER -

Floating Wind Array Ontology and Modeling Framework

Abstract

Publication series

NLR Publication Number

Keywords

Access to Document

Fingerprint

Cite this