Abstract

Wind turbines are typically organised as a fleet in a wind park, subject to similar, but varying, environmental conditions. This makes it possible to assess and benchmark a turbine’s output performance by comparing it to the other assets in the fleet. However, such a comparison cannot be performed straightforwardly on time series production data since the performance of a wind turbine is affected by a diverse set of factors (e.g., weather conditions). All these factors also produce a continuous stream of data, which, if discretised in an appropriate fashion, might allow us to uncover relevant insights into the turbine’s operations and behaviour. In this paper, we exploit the outcome of two inherently different discretisation approaches by statistical and visual analytics. As the first discretisation method, a complex layered integration approach is used. The DNA-like outcome allows us to apply advanced visual analytics, facilitating insightful operating mode monitoring. The second discretisation approach is applying a novel circular binning approach, capitalising on the circular nature of the angular variables. The resulting bins are then used to construct circular power maps and extract prototypical profiles via non-negative matrix factorisation, enabling us to detect anomalies and perform production forecasts.

Highlights

  • More and more industrial assets as wind turbines are instrumented with monitoring systems generating a vast amount of time series data

  • This makes it possible to assess and benchmark a turbine’s output performance by comparing it to the other assets in the fleet. Such a comparison cannot be performed straightforwardly on time series production data since the performance of a wind turbine is affected by a range of different factors, such as external factors and operating modes representing the internal dynamics of the turbine

  • The same phenomenon is monitored with multiple sensors, e.g., for reliability, each wind turbine is equipped with two identical anemometers on its nacelle, both measuring the wind speed

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Summary

Introduction

More and more industrial assets as wind turbines are instrumented with monitoring systems generating a vast amount of time series data. This makes it possible to assess and benchmark a turbine’s output performance by comparing it to the other assets in the fleet Such a comparison cannot be performed straightforwardly on time series production data since the performance of a wind turbine is affected by a range of different factors, such as external factors (e.g., weather conditions) and operating modes representing the internal dynamics of the turbine. All these factors produce a continuous stream of data, which, if discretised in an appropriate fashion, can be used to reveal novel insights into fleet performance and behaviour. It is not trivial, due to the multitude of influencing factors, which are often strongly interdependent, to identify a direct relation between certain production performance aspects and distinct operating modes

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