Our frequency analysis algorithms process higher frequency data from standard turbine interfaces to help detection of structural issues such as rotor imbalance and foundation degradation, which can be mitigated to reduce operating costs, increase energy capture and extend turbine life.

DNV’s artificial intelligence algorithms analyse SCADA data to identify power curve performance issues, incorrect turbine control settings, and sub-optimal operation so that these can be rectified to increase top line revenue.

Through monitoring the relative variation in production between turbines and over time, it is possible to identify performance outliers and degradation in turbine performance, so that these can be corrected. Our Pattern of Production Analysis can also be used to validate performance upgrades.

This module combines the analysis of SCADA data from the wind farm and of mesoscale reanalysis data to estimate the contribution of windiness, turbine availability and performance to any difference between actual production and operating budgets. Where sufficient data are available, the algorithm uses the long term mesoscale data to generate long-term annual energy yields.

This module leverages DNV’s physics based simulation models to calculate fatigue accumulation at the main structural components. This provides an estimate of the remaining life of a turbine which can be used to identify opportunities to extend life and prioritise inspections and maintenance. The life calculations are based on DNV’s aeroelastic modelling software Bladed, the industry standard solution for the design and certification of wind turbines.