Benchmarking predicted and actual production losses

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Published on
April 15, 2016

Assessment of production losses
400MW portfolio – Belgium, France & the Netherlands

3E investigated the performance of 57 wind farms across Belgium, France and the Netherlands, representing 184 wind turbines for a total installed capacity of 389MW. The portfolio included different wind turbine types and manufacturers, and consisted of recent wind farms with at least 1 year of data, as well as older wind farms with more than 4 years of operation.

The aim was to better assess the actual wind turbine technical availability, as well as benchmarking a number of production losses that are used in the pre-construction energy yield assessment, either as assumptions or as calculated values, to obtain the P50 figures from the gross energy yield. Most of the production loss values are derived from time-based values and in many cases, the assumption was made that a 1% loss in time represents a 1% loss in production. For example, wind turbine production-based unavailability is usually considered as 3% on the basis that O&M contracts warranty a time-based availability of 97%. However, it is clear that turbine shutdown during low wind conditions does not have the same impact on production than the same shutdown when the wind blows at 15 m/s.

3E developed a code (Python) to handle the various SCADA data formats and store them in a one unique database. For each turbine, the analysis unfolds as follows:

When no nacelle wind speed is available, typically during a grid outage, the wind speed was estimated using MERRA data. To do so, a linear regression was established between the nacelle wind speed and the MERRA wind speed of the nearest MERRA grid point, for timestamps during which the turbine is operational. This was then used to recreate the nacelle wind speed during grid outage.
The production-based technical availability was found to be equal to 97% in average, as can be seen below (50% of the wind turbines operated at more than 97.8%).

The following figure shows a clear improvement in time and production-based availability over the first 3 years of operation.

The next figure shows that the wind turbine production-based technical unavailability was 2.71%, which is lower than the pre-construction assumption of 3%. The other sources of production-based unavailability break down as follows: curtailment 0.29%, grid 0.28% and ambient errors 0.75%. Unlike the other losses, 3E noted a very wide spread of curtailment losses, which reflects the very changing noise/bats and power curtailment requirements from one site to the other.

Conclusions:

– The pre-construction loss assumptions are broadly in line with actual losses: wind turbine unavailability losses are slightly lower than predicted while grid losses are generally slightly underestimated. All in all, the total amount of losses predicted before construction matches the reality.
– Good O&M practices result in the production-based availability being higher than the time-based availability. In other words, wind turbines are generally stopped for maintenance at low wind.
– The ramping-up effect is not a myth, and a clear availability increase has been identified over the first 3 years of operation, again suggesting good and sound O&M practices.

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