Company insight
An example of fast, in-situ application of Belzona’s repair and protection solution.
Key benefits when compared to competitive products
■ 60-minute cure time in ambient temperatures ensures rapid return-to-service
■ Product is suitable for all climates (5–40°C/41–104°F) with a maximum overcoat window of 24 hours
■ Cartridge packaging ensures good mixing quality and ease of use
■ Easy to contour and long working-life ensures a smooth finish
■ Reduced health and safety risks (CMR free labelling in EU)
■ Durable technology provides a long- lasting repair
■ Sanding is not required prior to overcoating with Belzona 5721, thus speeding up the application process
■ Single component rather than two grades for all climates
■ Three-year shelf life allows for flexibility in application planning
■ Higher volume per cartridge ensures reduced packaging waste
■ Can be applied either at offshore or onshore wind farms
■ Can be used to repair manufacturing defects
He concluded: “With the combination of Belzona 5711 and Belzona 5721, the balance between usability and rapid return- to-service makes the products ideal for in-situ repair across a broad application temperature range. The long shelf life also
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makes Belzona an ideal stocking material for wind turbine maintenance.” In addition, Belzona 5711 is available worldwide through the network of Belzona international distributors. In order to ensure that the product is applied correctly, contractors can be trained in the application of Belzona 5711 locally on site by one of the local distributors.
Repair not replace According to the European Wind Energy Association, the estimated lifespan of a wind turbine is typically 20–25 years. Environmental factors, such as weathering, lightning, icing, birds and insect collisions, can seriously limit this lifespan. In addition, there is evidence that damage to the leading edges of a turbine blade can lower the annual energy production, with energy losses that range between 4–20% when the damage is severe.
By investing in a high-performance leading edge repair and protection system, asset-owners can protect wind turbine blades against the environmental damage outlined above. In doing so, polymeric systems support a circular economic strategy as this technology helps to extend the lifespan of wind turbine blades. In turn, this reduces the demand for blades to be manufactured and, eventually, disposed of.
Therefore, by giving the blades a new lease of life in this way, the combination of Belzona 5711 and Belzona 5721 will help towards mitigating the carbon footprint of the wind power industry.
In addition, by bypassing the expensive process of both replacing and disposing of damaged blades, asset owners will be able to make significant financial savings as well.
Supporting a net-zero future According to the 2021 State of Climate Action Report authored by the world’s top climate analysis coalition, Climate Action Tracker (CAT), in order to meet the Paris Agreement’s net zero by 2050 target, the share of wind and solar energy in electricity generation needs to increase from 7% (based on 2018 figures) to 37–72% by 2030. By 2050, the share needs to rise further to 80–82%.
This means that by 2050, wind and solar electricity generation needs to increase by between 73–74.7%. In order to support this seismic growth, leading edge repair and protection systems, such as Belzona 5711 and Belzona 5721, play a critical role in extending the lifespan of wind turbine blades and, therefore, supporting a net- zero future for the planet. ●
www.belzona.com World Wind Technology /
www.worldwind-technology.com
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