The wind energy industry also depends on critical minerals, such as rare earth elements (including the neodymium and dysprosium magnets used in generators), which do not currently have domestic commercial-scale recycling options. These materials can be found in various forms in wind turbine blades, nacelle covers, and the cover for the hub that connects the blades to the wind turbine. The bulk of the unrecycled materials is composed of fiber-reinforced composites (carbon fiber and fiberglass). It also helps divert waste from landfills, preventing pollution and conserving natural resources.Ībout 85%–90% of the mass of a wind turbine is made of materials that can already be commercially recycled. Recycling wind turbine materials involves the recovery of valuable resources from decommissioned turbines, saving energy that would otherwise be required for their production. WETO is also funding efforts at NREL and Argonne National Laboratory to improve the reliability and maintainability of wind turbine drivetrains through the Drivetrain Reliability Collaborative. With WETO funding, Sandia is developing advanced blade inspection techniques and improving repair capabilities as part of its Blade Reliability Initiative. Wind turbine components like blades can fail and require replacement earlier than expected, indicating a need for manufacturing methods and materials that optimize longer life cycles.Īdvanced drone and robotic maintenance, repair strategies for older blades, and diagnostic and inspection techniques that support certifying wind turbines to operate for an extended lifetime, are all ways to reduce demand for new blades. ![]() Activities to extend the lifespan of wind turbines can include re-using discarded components for another purpose or inspecting and maintaining the components to increase their reliability and prolong function. Supporting the development of innovative materials for wind energy applications, such as the novel carbon fiber being developed at ORNL and Sandia National Laboratories (Sandia) which could make wind turbine blades lighter and more durable.īuilding wind turbines requires large quantities of materials and components, and these components will eventually reach the end of their design lifetime.Working with DOE’s National Renewable Energy Laboratory (NREL) and Oak Ridge National Laboratory (ORNL) to develop novel techniques for wind turbine generator design and manufacturing to reduce the amount of material needed to achieve the same level of performance.WETO is working to reduce the quantity of materials needed for high-performing wind turbines by: Leveraging higher-performing materials, using less energy-intensive materials, or eliminating the need for a component by changing the way the system works are all ways to reduce waste. ![]() Reducing WasteĪs wind energy grows as a central component of a sustainable and prosperous economy, novel materials and manufacturing strategies are needed to ensure that more wind energy doesn’t mean more waste. These approaches help minimize waste, conserve resources, and reduce greenhouse gas emissions associated with the production and disposal of wind turbine components. ![]() This includes engineering technology from the start to require fewer materials, resources, and energy, while lasting longer and having components that can easily be broken down for use in future applications.Įxtending the life cycle, reducing waste, and enhancing the recycling of wind turbine materials are important strategies to promote sustainability and reduce the environmental impact of wind energy systems. Department of Energy’s (DOE) Wind Energy Technologies Office (WETO) is working with researchers across industry, academia, and national laboratories to create a circular economy for wind energy.Ī circular economy keeps materials, products, and services in circulation for as long as possible. Wind energy is one of the fastest-growing sources of electricity generation and is key to meeting our nation’s clean energy goals.
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