Your Turbines Are 7% Below Warranty Curve
The OEM Says It Is Normal
Blade erosion, yaw misalignment, pitch system drift—something is wrong. But without 10-minute SCADA data analysis, you cannot prove it. That 7% gap is $1.2M per year.
Power Curve Reality vs Warranty
12 months of 10-minute SCADA data
Why Your Turbines Underperform
Leading edge damage from rain, insects, and particulates
Nacelle not perfectly facing the wind direction
Wake effects from neighboring turbines and terrain
Blade pitch control not optimized for conditions
Ice accumulation on blades during winter months
Sensor drift, control inefficiencies, aging
Not All Turbines Are Equal
Power curve deviation by turbine position
Back row turbines suffer 2x more deviation due to wake effects
Questions from Asset Managers & Engineers
What wind operators ask about power curves
QHow does SlideStrike analyze power curves?
SlideStrike ingests 10-minute SCADA data, applies IEC 61400-12 filtering, and compares actual performance against manufacturer warranty curves and site-specific energy models.
QCan it identify root causes of underperformance?
Yes. SlideStrike correlates power curve deviations with yaw error, pitch angle, blade condition, and environmental factors to isolate specific performance issues.
QWhat about warranty claims for underperformance?
SlideStrike generates IEC-compliant power curve test reports that meet OEM and independent engineer requirements for warranty claims.
Power Curve Intelligence
Every data point analyzed. Every deviation quantified. Every claim supported.