Wind Turbine Gearbox Reliability Collaborative

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Wind Turbine Gearbox Reliability Collaborative Walt Musial National Renewable Energy Laboratory Golden, CO USA [email protected] Albuquerque Marriott Pyramid North 5151 San Francisco Road NE Albuquerque, NM 87109 USA

Transcript of Wind Turbine Gearbox Reliability Collaborative

Page 1: Wind Turbine Gearbox Reliability Collaborative

Wind Turbine Gearbox Reliability Collaborative

Walt MusialNational Renewable Energy Laboratory

Golden, CO [email protected]

Albuquerque Marriott Pyramid North5151 San Francisco Road NEAlbuquerque, NM 87109 USA

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Background• Wind Turbine Gearboxes do not meet their

design life.• Standards and improved industry practices have

helped but wind system costs are still rising. • Failures are not specific to one machine type or

application.• NREL’s 2.5 MW dynamometer has completed

most of the scheduled backlog.• NREL/DOE will address drivetrain reliability as a

significant new area for long term R&D.

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Dynamometer Background/Specifications

• 2.5 MW rated power capacity -Power regeneration at 480 volts or 4160 volts.• Torque range 0 - 1.62 million N-m (13.5 million in-lb).• Speed range from 0 - 2250 RPM• 488 kN (110 kip) force capacity for dynamic shaft bending with servo-

hydraulic controls.• Fully automated SCADA torque/speed controls

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Gear Reliability Collaborative Objectives

• Develop dynamometer testing capability to assess

gearbox/ drivetrain problems and solutions

• Understand how gearbox loads translate to bearing

response, stress, slip, and other gearbox problems.

• Develop a more comprehensive gearbox design load case

matrix.

• Evaluate and validate current drive train analytical tools.

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Project Organizational Chart

NREL/DOE Dynamometer Test

Facility

Hal Link – Senior Test Engineer

Vahan Gevorgian – Electrical Instrumentation Engineer

Ed Overly – Lead Technician

Troy Boro – Mechanical Technician

Project TeamCoordinator

Dynamometer Test Resources

Test Article

Specialized Equipment

Expert Consultants

Instrumentation

Heavy Lifting Rental

Field Test

Drivetrain Analysis

Participants

Page 6: Wind Turbine Gearbox Reliability Collaborative

Wind Turbine Gearbox Reliability Collaborative Organization

Field Test Team Dyno Test Team

Analysis Team

Project Management Team

Collaborative Advisory Committee

•Load cases•System loads•Internal loads

•Test plan•Test article•Test setup & execution•Data analysis

•Test plan•Test turbine•Test setup & execution•Data analysis

Public Data

Results

Proprietary and/or CRADA IP Protected

Data

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Intellectual Property Protection

Participants shall not use their membership in the collaborative as a

means to promote or advance litigation against other participants

or potential participants.

• IP protection highest priority• Cooperative Research and development Agreements

(CRADA) can protect data brought in.• Data exchange among members will be limited as

needed.

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Dynamometer Testing• Gearbox system instrumented to measure

strain, deflections, shaft displacements, and loads.

• Simulated field loading to replicate gearbox failures.

• Failure modes will be correlated with external loading.

• Root cause forensics

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Dynamometer Test Envelope

Target Test Article– 600 to 900 kW Gearbox– Failures are

representative of currenfleet

– Cheaper– Failure database

established– 3X loading possible

0

500

1000

1500

2000

2500

3000

0 5 10 15 20 25 30 35RPM

Pow

er (k

W)

Rated Power Envelope

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Test Platform Options• V-47 – 660-kW• NM -750 – 750 – kW• GE 1.5 kW bedplate with rebuilt Flender

gearbox. (default option)

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Field Testing

• Drivetrain the same as dynamometer system.

• Tests will correlate damaging internal bearing loads with external loads.

• Forensic verification• Field test partners

wanted.

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Gearbox Analysis• Provide modeling support to the testing

groups. • Use project field data or dynamometer test

data to model dynamometer test article response.

• Correlate Dyno response to turbine response.

• Use test data to gain confidence in codes.

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Project Schedule

• Workshop was held at NREL July 11-12, 2006.• Draft plan distributed September 28, 2006• Comments, feedback, and commitments through

end of 2006. • Dynamometer testing to begin in early 2007

depending on commitments.• Annual reviews to determine project

continuation.

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Project Teams Minimum Requirements

• Group with Common Purpose (preferable established working relationship)– Bearing Manufacturer– Turbine Manufacturer– Owner/Operator– Gearbox Manufacturer

• Articulated Problem• Benefits larger Industry with basic

conclusions• Example: Investigating response of SRB in

LS planets

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Methods of Participation• Cash is always accepted.• In kind equipment • In-kind labor and support• Data, Data, Data (value negotiable)• Minimum thresholds of participation to

be determined.

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Conclusions

• New collaborative to address gearbox reliability.

• Generic root causes to be addressed.• Confidentiality top priority• 20 year gearboxes???