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Center for Nondestructive Evaluation I OWA S TATE U NIVERSITY Wind Turbine NDE Jeremy Van Dam.

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Presentation on theme: "Center for Nondestructive Evaluation I OWA S TATE U NIVERSITY Wind Turbine NDE Jeremy Van Dam."— Presentation transcript:

1 Center for Nondestructive Evaluation I OWA S TATE U NIVERSITY Wind Turbine NDE Jeremy Van Dam

2 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation Levelized Cost of Energy LCOE = the average lifetime levelized cost of electricity generation I t = investment expenditures in the year t; M t = operations and maintenance expenditures in the year t; F t = fuel expenditures in the year t; E t = electricity generation in the year t; r = discount rate; and n = economic life of the system. (RENEWABLE ENERGY TECHNOLOGIES: COST ANALYSIS SERIES, 2012)

3 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation Levelized Cost of Energy (RENEWABLE ENERGY TECHNOLOGIES: COST ANALYSIS SERIES, 2012)

4 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation Levelized Cost of Energy

5 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation Reduce Operation and Maintenance Costs Table: (Levelized Cost of New Generation Resources in the Annual Energy Outlook 2013, 2013)

6 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation Reduce Operation and Maintenance Costs The fixed and variable operations and maintenance (O&M) costs are a significant part of the overall LCOE of wind power. O&M costs typically account for 20% to 25% of the total LCOE of current wind power systems. (EWEA, 2009)

7 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation Turbines are Getting Bigger

8 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation Turbines are Getting Bigger Source: NREL. (Lantz, Hand, & Wiser, 2012)

9 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation The state-of-the-art

10 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation State-of-the-art Nacelle Monitoring Displacement Monitoring Temperature Monitoring Vibration Censors Accelerometers Ludeca, Inc The green arrows indicate sensor (accelerometer) locations for standard wind turbines.

11 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation State-of-the-art Blade Monitoring Strain Gauges Fibre Bragg Grating Offer physical correlation between wavelength and strain Long term stability and no recalibration required Limited number of sensors P.J. Schubel et al. / Renewable Energy 51 (2013) 113e123

12 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation State-of-the-art Blade Monitoring Strain Gauges Electrical Sensors Require Large Sensor arrays Stress Field is required Applicable in Operation Mature technology P.J. Schubel et al. / Renewable Energy 51 (2013) 113e123

13 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation State-of-the-art Blade Monitoring Strain Gauges Acoustic Emissions Crack initiation Breaking of Fibers Few Sensors needed High levels of Noise Integrity Diagnostics

14 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation State-of-the-art Blade Monitoring Strain Gauges Acoustic Emissions Ultrasonic Reveals certain flaws quickly Scattering effect has a negative impact National Instruments

15 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation State-of-the-art Blade Monitoring Strain Gauges Acoustic Emissions Ultrasonic Thermography Record Temperature differences – identify flaws Condition monitoring and fault detection of wind turbines and related algorithms (Hameed)

16 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation Turbine Blade Windpower: Engineering & Development

17 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation Turbine Blade Cracking Typical blade damage Study of fatigue failure damage in wind turbine blades (Marin)

18 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation Turbine Blade Out-of-Plane Waviness Reduces Structural integrity Iowa State University

19 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation Turbine Blade Custom created hole for testing Joint Failure De-bonding Lack of Resin Cracking Iowa State University

20 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation Turbine Blade Iowa State University

21 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation Turbine Blade Iowa State University

22 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation Future Work Determine Method of NDE What are the areas of need? Combine multiple methods? Determine Failure Mode How to actively monitor for the Failure

23 IOWA STATE UNIVERSITY IOWA STATE UNIVERSITY Center for Nondestructive Evaluation Related Work Wind Turbine Reliability Keep the wind turbine functioning when the wind is blowing Avoid critical failures Reduce Wind Turbine Costs Reduce the O & M costs Manage downtimes

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