Model fidelity study of dynamic transient loads in a wind turbine gearbox : preprint / Yi Guo, Jonathan Keller, Robert Errichello, [and] Chris Halse.

Format:

Book

Government document

Author/Creator:

Guo, Yi (Research engineer)

Keller, Jon (Mechanical engineer), author.

Errichello, Robert., author.

Halse, Christopher (RomaxTechnology Inc.), author.

Contributor:

National Renewable Energy Laboratory (U.S.), issuing body.

Series:

Conference paper (National Renewable Energy Laboratory (U.S.)) ; 5000-58414.

NREL/CP ; 5000-58414

Language:

English

Subjects (All):

Wind turbines--Testing.

Wind turbines.

Wind turbines--Aerodynamics.

Physical Description:

1 online resource (12 pages) : illustrations (some color).

Place of Publication:

[Golden, Colo.] : National Renewable Energy Laboratory, 2013.

Summary:

Transient events cause high loads in the drivetrain components so measuring and calculating these loads can improve confidence in drivetrain design. This paper studies the Gearbox Reliability Collaborative 750kW wind turbine gearbox response during transient events using a combined experimental and modeling approach. The transient events include emergency shut-downs and start-ups measured duringa field testing period in 2009. The drivetrain model is established in the multibody simulation tool Simpack. A detailed study of modeling fidelity required for accurate load prediction is performed and results are compared against measured loads. A high fidelity model that includes shaft and housing flexibility and accurate bearing stiffnesses is important for the higher-speed stage bearingloads. Each of the transient events has different modeling requirements.

Notes:

Title from title screen (viewed Sept. 10, 2013).

"April 2013."

"To be presented at the 2013 WINDPOWER Conference, Chicago, Illinois, May 5-8, 2013."

Includes bibliographical references (page 12).

OCLC:

861753442

Publisher Number:

0000-0001-7724-3885 orcid

1078065 OSTI ID

Access Restriction:

Publicly released